d6/d3c/fs__api_8c_source.html

 /*

      This file is part of GNUnet.

      Copyright (C) 2001--2012 GNUnet e.V.


      GNUnet is free software: you can redistribute it and/or modify it

      under the terms of the GNU Affero General Public License as published

      by the Free Software Foundation, either version 3 of the License,

      or (at your option) any later version.


      GNUnet is distributed in the hope that it will be useful, but

      WITHOUT ANY WARRANTY; without even the implied warranty of

      MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU

      Affero General Public License for more details.


      You should have received a copy of the GNU Affero General Public License

      along with this program.  If not, see <http://www.gnu.org/licenses/>.


      SPDX-License-Identifier: AGPL3.0-or-later

  */


 #include "platform.h"

 #include "gnunet_util_lib.h"


 #include "gnunet_fs_service.h"

 #include "fs_api.h"

 #include "fs_tree.h"


 #define DEFAULT_MAX_PARALLEL_REQUESTS (1024 * 10)


 #define DEFAULT_MAX_PARALLEL_DOWNLOADS 16


 static void

 start_job (struct GNUNET_FS_QueueEntry *qe)

 {

   qe->active = GNUNET_YES;

   qe->start (qe->cls);

   qe->start_times++;

   qe->h->active_blocks += qe->blocks;

   qe->h->active_downloads++;

   qe->start_time = GNUNET_TIME_absolute_get ();

   GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,

               "Starting job %p (%u active)\n",

               qe,

               qe->h->active_downloads);

   GNUNET_CONTAINER_DLL_remove (qe->h->pending_head, qe->h->pending_tail, qe);

   GNUNET_CONTAINER_DLL_insert_after (qe->h->running_head,

                                      qe->h->running_tail,

                                      qe->h->running_tail,

                                      qe);

 }


 static void

 stop_job (struct GNUNET_FS_QueueEntry *qe)

 {

   qe->active = GNUNET_NO;

   qe->stop (qe->cls);

   GNUNET_assert (0 < qe->h->active_downloads);

   qe->h->active_downloads--;

   qe->h->active_blocks -= qe->blocks;

   qe->run_time = GNUNET_TIME_relative_add (qe->run_time,

                                            GNUNET_TIME_absolute_get_duration (

                                              qe->start_time));

   GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,

               "Stopping job %p (%u active)\n",

               qe,

               qe->h->active_downloads);

   GNUNET_CONTAINER_DLL_remove (qe->h->running_head, qe->h->running_tail, qe);

   GNUNET_CONTAINER_DLL_insert_after (qe->h->pending_head,

                                      qe->h->pending_tail,

                                      qe->h->pending_tail,

                                      qe);

 }


 static void

 process_job_queue (void *cls)

 {

   struct GNUNET_FS_Handle *h = cls;

   struct GNUNET_FS_QueueEntry *qe;

   struct GNUNET_FS_QueueEntry *next;

   struct GNUNET_TIME_Relative run_time;

   struct GNUNET_TIME_Relative restart_at;

   struct GNUNET_TIME_Relative rst;

   struct GNUNET_TIME_Absolute end_time;

   unsigned int num_downloads_waiting;

   unsigned int num_downloads_active;

   unsigned int num_downloads_expired;

   unsigned int num_probes_active;

   unsigned int num_probes_waiting;

   unsigned int num_probes_expired;

   int num_probes_change;

   int num_downloads_change;

   int block_limit_hit;


   h->queue_job = NULL;

   /* restart_at will be set to the time when it makes sense to

      re-evaluate the job queue (unless, of course, jobs complete

      or are added, then we'll be triggered immediately */

   restart_at = GNUNET_TIME_UNIT_FOREVER_REL;

   /* first, calculate some basic statistics on pending jobs */

   num_probes_waiting = 0;

   num_downloads_waiting = 0;

   for (qe = h->pending_head; NULL != qe; qe = qe->next)

   {

     switch (qe->priority)

     {

     case GNUNET_FS_QUEUE_PRIORITY_PROBE:

       num_probes_waiting++;

       break;


     case GNUNET_FS_QUEUE_PRIORITY_NORMAL:

       num_downloads_waiting++;

       break;


     default:

       GNUNET_break (0);

       break;

     }

   }

   /* now, calculate some basic statistics on running jobs */

   num_probes_active = 0;

   num_probes_expired = 0;

   num_downloads_active = 0;

   num_downloads_expired = 0;

   next = h->running_head;

   while (NULL != (qe = next))

   {

     next = qe->next;

     switch (qe->priority)

     {

     case GNUNET_FS_QUEUE_PRIORITY_PROBE:

       run_time = GNUNET_TIME_relative_multiply (GNUNET_TIME_UNIT_MINUTES, 2);

       end_time = GNUNET_TIME_absolute_add (qe->start_time, run_time);

       rst = GNUNET_TIME_absolute_get_remaining (end_time);

       if (0 == rst.rel_value_us)

       {

         num_probes_expired++;

         stop_job (qe);

       }

       else

       {

         num_probes_active++;

         restart_at = GNUNET_TIME_relative_min (rst, restart_at);

       }

       break;


     case GNUNET_FS_QUEUE_PRIORITY_NORMAL:

       run_time =

         GNUNET_TIME_relative_saturating_multiply (h->avg_block_latency,

                                                   qe->blocks * qe->start_times);

       end_time = GNUNET_TIME_absolute_add (qe->start_time, run_time);

       rst = GNUNET_TIME_absolute_get_remaining (end_time);

       if (0 == rst.rel_value_us)

       {

         num_downloads_expired++;

         stop_job (qe);

       }

       else

       {

         num_downloads_active++;

         restart_at = GNUNET_TIME_relative_min (rst, restart_at);

       }

       break;


     default:

       GNUNET_break (0);

       break;

     }

   }

   GNUNET_break (h->active_downloads ==

                 num_downloads_active + num_probes_active);

   GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,

               "PA: %u, PE: %u, PW: %u; DA: %u, DE: %u, DW: %u\n",

               num_probes_active,

               num_probes_expired,

               num_probes_waiting,

               num_downloads_active,

               num_downloads_expired,

               num_downloads_waiting);

   GNUNET_break (h->active_downloads + num_probes_active <=

                 h->max_parallel_downloads);

   /* calculate start/stop decisions */

   if (h->active_downloads + num_downloads_waiting > h->max_parallel_downloads)

   {

     /* stop as many probes as there are downloads and probes */

     num_probes_change = -GNUNET_MIN (num_probes_active, num_downloads_waiting);

     /* start as many downloads as there are free slots, including those

        we just opened up */

     num_downloads_change =

       h->max_parallel_downloads - h->active_downloads - num_probes_change;

   }

   else

   {

     /* start all downloads (we can) */

     num_downloads_change = num_downloads_waiting;

     /* also start probes if there is room, but use a lower cap of (mpd/4) + 1 */

     if (1 + h->max_parallel_downloads / 4 >=

         (h->active_downloads + num_downloads_change))

       num_probes_change =

         GNUNET_MIN (num_probes_waiting,

                     (1 + h->max_parallel_downloads / 4)

                     - (h->active_downloads + num_downloads_change));

     else

       num_probes_change = 0;

   }

   GNUNET_break (num_downloads_change <= num_downloads_waiting);

   GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,

               "Changing %d probes and %d/%u/%u downloads\n",

               num_probes_change,

               num_downloads_change,

               (unsigned int) h->active_downloads,

               (unsigned int) h->max_parallel_downloads);

   /* actually stop probes */

   next = h->running_head;

   while (NULL != (qe = next))

   {

     next = qe->next;

     if (GNUNET_FS_QUEUE_PRIORITY_PROBE != qe->priority)

       continue;

     if (num_probes_change < 0)

     {

       stop_job (qe);

       num_probes_change++;

       if (0 == num_probes_change)

         break;

     }

   }

   GNUNET_break (0 <= num_probes_change);


   /* start some more tasks if we now have empty slots */

   block_limit_hit = GNUNET_NO;

   next = h->pending_head;

   while ((NULL != (qe = next)) &&

          ((num_probes_change > 0) || (num_downloads_change > 0)))

   {

     next = qe->next;

     switch (qe->priority)

     {

     case GNUNET_FS_QUEUE_PRIORITY_PROBE:

       if (num_probes_change > 0)

       {

         start_job (qe);

         num_probes_change--;

         run_time = GNUNET_TIME_relative_multiply (GNUNET_TIME_UNIT_MINUTES, 2);

         restart_at = GNUNET_TIME_relative_min (run_time, restart_at);

       }

       break;


     case GNUNET_FS_QUEUE_PRIORITY_NORMAL:

       if ((num_downloads_change > 0) &&

           ((qe->blocks + h->active_blocks <= h->max_parallel_requests) ||

            ((qe->blocks > h->max_parallel_requests) &&

             (0 == h->active_downloads))))

       {

         start_job (qe);

         num_downloads_change--;

       }

       else if (num_downloads_change > 0)

         block_limit_hit = GNUNET_YES;

       break;


     default:

       GNUNET_break (0);

       break;

     }

   }

   GNUNET_break ((0 == num_downloads_change) || (GNUNET_YES == block_limit_hit));

   GNUNET_break (0 == num_probes_change);


   GNUNET_log (

     GNUNET_ERROR_TYPE_DEBUG,

     "AD: %u, MP: %u; %d probes and %d downloads to start, will run again in %s\n",

     h->active_downloads,

     h->max_parallel_requests,

     num_probes_change,

     num_downloads_change,

     GNUNET_STRINGS_relative_time_to_string (restart_at, GNUNET_YES));


   /* make sure we run again, callbacks might have

      already re-scheduled the job, so cancel such

      an operation (if it exists) */

   if (NULL != h->queue_job)

     GNUNET_SCHEDULER_cancel (h->queue_job);

   h->queue_job =

     GNUNET_SCHEDULER_add_delayed (restart_at, &process_job_queue, h);

 }


 struct GNUNET_FS_QueueEntry *

 GNUNET_FS_queue_ (struct GNUNET_FS_Handle *h,

                   GNUNET_SCHEDULER_TaskCallback start,

                   GNUNET_SCHEDULER_TaskCallback stop,

                   void *cls,

                   unsigned int blocks,

                   enum GNUNET_FS_QueuePriority priority)

 {

   struct GNUNET_FS_QueueEntry *qe;


   qe = GNUNET_new (struct GNUNET_FS_QueueEntry);

   qe->h = h;

   qe->start = start;

   qe->stop = stop;

   qe->cls = cls;

   qe->queue_time = GNUNET_TIME_absolute_get ();

   qe->blocks = blocks;

   qe->priority = priority;

   GNUNET_CONTAINER_DLL_insert_after (h->pending_head,

                                      h->pending_tail,

                                      h->pending_tail,

                                      qe);

   if (NULL != h->queue_job)

     GNUNET_SCHEDULER_cancel (h->queue_job);

   h->queue_job = GNUNET_SCHEDULER_add_now (&process_job_queue, h);

   GNUNET_log (GNUNET_ERROR_TYPE_DEBUG, "Queueing job %p\n", qe);

   return qe;

 }


 void

 GNUNET_FS_dequeue_ (struct GNUNET_FS_QueueEntry *qe)

 {

   struct GNUNET_FS_Handle *h;


   h = qe->h;

   GNUNET_log (GNUNET_ERROR_TYPE_DEBUG, "Dequeueing job %p\n", qe);

   if (GNUNET_YES == qe->active)

     stop_job (qe);

   GNUNET_CONTAINER_DLL_remove (h->pending_head, h->pending_tail, qe);

   GNUNET_free (qe);

   if (NULL != h->queue_job)

     GNUNET_SCHEDULER_cancel (h->queue_job);

   h->queue_job = GNUNET_SCHEDULER_add_now (&process_job_queue, h);

 }


 struct TopLevelActivity *

 GNUNET_FS_make_top (struct GNUNET_FS_Handle *h,

                     SuspendSignalFunction ssf,

                     void *ssf_cls)

 {

   struct TopLevelActivity *ret;


   ret = GNUNET_new (struct TopLevelActivity);

   ret->ssf = ssf;

   ret->ssf_cls = ssf_cls;

   GNUNET_CONTAINER_DLL_insert (h->top_head, h->top_tail, ret);

   return ret;

 }


 void

 GNUNET_FS_end_top (struct GNUNET_FS_Handle *h, struct TopLevelActivity *top)

 {

   GNUNET_CONTAINER_DLL_remove (h->top_head, h->top_tail, top);

   GNUNET_free (top);

 }


 struct FileInfo

 {

   char *filename;


   struct GNUNET_DISK_FileHandle *fd;

 };


 size_t

 GNUNET_FS_data_reader_file_ (void *cls,

                              uint64_t offset,

                              size_t max,

                              void *buf,

                              char **emsg)

 {

   struct FileInfo *fi = cls;

   ssize_t ret;


   if (UINT64_MAX == offset)

   {

     if (NULL != fi->fd)

     {

       GNUNET_DISK_file_close (fi->fd);

       fi->fd = NULL;

     }

     return 0;

   }

   if (0 == max)

   {

     if (NULL != fi->fd)

       GNUNET_DISK_file_close (fi->fd);

     GNUNET_free (fi->filename);

     GNUNET_free (fi);

     return 0;

   }

   if (NULL == fi->fd)

   {

     fi->fd = GNUNET_DISK_file_open (fi->filename,

                                     GNUNET_DISK_OPEN_READ,

                                     GNUNET_DISK_PERM_NONE);

     if (NULL == fi->fd)

     {

       GNUNET_asprintf (emsg,

                        _ ("Could not open file `%s': %s"),

                        fi->filename,

                        strerror (errno));

       return 0;

     }

   }

   if ((GNUNET_SYSERR ==

        GNUNET_DISK_file_seek (fi->fd, offset, GNUNET_DISK_SEEK_SET)) ||

       (-1 == (ret = GNUNET_DISK_file_read (fi->fd, buf, max))))

   {

     GNUNET_asprintf (emsg,

                      _ ("Could not read file `%s': %s"),

                      fi->filename,

                      strerror (errno));

     return 0;

   }

   if (ret != max)

   {

     GNUNET_asprintf (emsg,

                      _ ("Short read reading from file `%s'!"),

                      fi->filename);

     return 0;

   }

   return max;

 }


 void *

 GNUNET_FS_make_file_reader_context_ (const char *filename)

 {

   struct FileInfo *fi;


   fi = GNUNET_new (struct FileInfo);

   fi->filename = GNUNET_STRINGS_filename_expand (filename);

   if (NULL == fi->filename)

   {

     GNUNET_free (fi);

     return NULL;

   }

   return fi;

 }


 size_t

 GNUNET_FS_data_reader_copy_ (void *cls,

                              uint64_t offset,

                              size_t max,

                              void *buf,

                              char **emsg)

 {

   char *data = cls;


   if (UINT64_MAX == offset)

     return 0;

   if (0 == max)

   {

     GNUNET_free (data);

     return 0;

   }

   GNUNET_memcpy (buf, &data[offset], max);

   return max;

 }


 static char *

 get_serialization_file_name (struct GNUNET_FS_Handle *h,

                              const char *ext,

                              const char *ent)

 {

   char *basename;

   char *ret;


   if (0 == (h->flags & GNUNET_FS_FLAGS_PERSISTENCE))

     return NULL; /* persistence not requested */

   if (GNUNET_OK != GNUNET_CONFIGURATION_get_value_filename (h->cfg,

                                                             "fs",

                                                             "STATE_DIR",

                                                             &basename))

     return NULL;

   GNUNET_asprintf (&ret,

                    "%s%s%s%s%s%s%s",

                    basename,

                    DIR_SEPARATOR_STR,

                    h->client_name,

                    DIR_SEPARATOR_STR,

                    ext,

                    DIR_SEPARATOR_STR,

                    ent);

   GNUNET_free (basename);

   return ret;

 }


 static char *

 get_serialization_file_name_in_dir (struct GNUNET_FS_Handle *h,

                                     const char *ext,

                                     const char *uni,

                                     const char *ent)

 {

   char *basename;

   char *ret;


   if (0 == (h->flags & GNUNET_FS_FLAGS_PERSISTENCE))

     return NULL; /* persistence not requested */

   if (GNUNET_OK != GNUNET_CONFIGURATION_get_value_filename (h->cfg,

                                                             "fs",

                                                             "STATE_DIR",

                                                             &basename))

     return NULL;

   GNUNET_asprintf (&ret,

                    "%s%s%s%s%s%s%s.dir%s%s",

                    basename,

                    DIR_SEPARATOR_STR,

                    h->client_name,

                    DIR_SEPARATOR_STR,

                    ext,

                    DIR_SEPARATOR_STR,

                    uni,

                    DIR_SEPARATOR_STR,

                    ent);

   GNUNET_free (basename);

   return ret;

 }


 static struct GNUNET_BIO_ReadHandle *

 get_read_handle (struct GNUNET_FS_Handle *h, const char *ext, const char *ent)

 {

   char *fn;

   struct GNUNET_BIO_ReadHandle *ret;


   fn = get_serialization_file_name (h, ext, ent);

   if (NULL == fn)

     return NULL;

   ret = GNUNET_BIO_read_open_file (fn);

   GNUNET_free (fn);

   return ret;

 }


 static struct GNUNET_BIO_WriteHandle *

 get_write_handle (struct GNUNET_FS_Handle *h, const char *ext, const char *ent)

 {

   char *fn;

   struct GNUNET_BIO_WriteHandle *ret;


   fn = get_serialization_file_name (h, ext, ent);

   if (NULL == fn)

     return NULL;

   ret = GNUNET_BIO_write_open_file (fn);

   GNUNET_break (NULL != ret);

   GNUNET_free (fn);

   return ret;

 }


 static struct GNUNET_BIO_WriteHandle *

 get_write_handle_in_dir (struct GNUNET_FS_Handle *h,

                          const char *ext,

                          const char *uni,

                          const char *ent)

 {

   char *fn;

   struct GNUNET_BIO_WriteHandle *ret;


   fn = get_serialization_file_name_in_dir (h, ext, uni, ent);

   if (NULL == fn)

     return NULL;

   ret = GNUNET_BIO_write_open_file (fn);

   GNUNET_free (fn);

   return ret;

 }


 void

 GNUNET_FS_remove_sync_file_ (struct GNUNET_FS_Handle *h,

                              const char *ext,

                              const char *ent)

 {

   char *filename;


   if ((NULL == ent) || (0 == strlen (ent)))

   {

     GNUNET_break (0);

     return;

   }

   filename = get_serialization_file_name (h, ext, ent);

   if (NULL != filename)

   {

     if ((0 != unlink (filename)) && (ENOENT != errno))

       GNUNET_log_strerror_file (GNUNET_ERROR_TYPE_WARNING, "unlink", filename);

     GNUNET_free (filename);

   }

 }


 static void

 remove_sync_file_in_dir (struct GNUNET_FS_Handle *h,

                          const char *ext,

                          const char *uni,

                          const char *ent)

 {

   char *filename;


   if ((NULL == ent) || (0 == strlen (ent)))

   {

     GNUNET_break (0);

     return;

   }

   filename = get_serialization_file_name_in_dir (h, ext, uni, ent);

   if (NULL == filename)

     return;

   if (0 != unlink (filename))

     GNUNET_log_strerror_file (GNUNET_ERROR_TYPE_WARNING, "unlink", filename);

   GNUNET_free (filename);

 }


 void

 GNUNET_FS_remove_sync_dir_ (struct GNUNET_FS_Handle *h,

                             const char *ext,

                             const char *uni)

 {

   char *dn;


   if (NULL == uni)

     return;

   dn = get_serialization_file_name_in_dir (h, ext, uni, "");

   if (NULL == dn)

     return;

   if ((GNUNET_YES == GNUNET_DISK_directory_test (dn, GNUNET_YES)) &&

       (GNUNET_OK != GNUNET_DISK_directory_remove (dn)))

     GNUNET_log_strerror_file (GNUNET_ERROR_TYPE_WARNING, "rmdir", dn);

   GNUNET_free (dn);

 }


 static int

 write_start_time (struct GNUNET_BIO_WriteHandle *wh,

                   struct GNUNET_TIME_Absolute timestamp)

 {

   struct GNUNET_TIME_Relative dur;


   dur = GNUNET_TIME_absolute_get_duration (timestamp);

   return GNUNET_BIO_write_int64 (wh, "start time", dur.rel_value_us);

 }


 static int

 read_start_time (struct GNUNET_BIO_ReadHandle *rh,

                  struct GNUNET_TIME_Absolute *timestamp)

 {

   struct GNUNET_TIME_Relative dur;


   if (GNUNET_OK != GNUNET_BIO_read_int64 (rh, "start time",

                                           (int64_t *) &dur.rel_value_us))

     return GNUNET_SYSERR;

   *timestamp = GNUNET_TIME_absolute_subtract (GNUNET_TIME_absolute_get (), dur);

   return GNUNET_OK;

 }


 static struct GNUNET_FS_FileInformation *

 deserialize_file_information (struct GNUNET_FS_Handle *h, const char *filename);


 static struct GNUNET_FS_FileInformation *

 deserialize_fi_node (struct GNUNET_FS_Handle *h,

                      const char *fn,

                      struct GNUNET_BIO_ReadHandle *rh)

 {

   struct GNUNET_FS_FileInformation *ret;

   struct GNUNET_FS_FileInformation *nxt;

   char b;

   char *ksks;

   char *chks;

   char *skss;

   char *filename;

   uint32_t dsize;


   if (GNUNET_OK != GNUNET_BIO_read (rh, "status flag", &b, sizeof(b)))

   {

     GNUNET_break (0);

     return NULL;

   }

   ret = GNUNET_new (struct GNUNET_FS_FileInformation);

   ret->h = h;

   ksks = NULL;

   chks = NULL;

   skss = NULL;

   filename = NULL;

   if ((GNUNET_OK != GNUNET_FS_read_meta_data (rh, "metadata", &ret->meta)) ||

       (GNUNET_OK != GNUNET_BIO_read_string (rh, "ksk-uri", &ksks, 32 * 1024)) ||

       ((NULL != ksks) &&

        ((NULL == (ret->keywords = GNUNET_FS_uri_parse (ksks, NULL))) ||

         (GNUNET_YES != GNUNET_FS_uri_test_ksk (ret->keywords)))) ||

       (GNUNET_OK != GNUNET_BIO_read_string (rh, "chk-uri", &chks, 1024)) ||

       ((NULL != chks) &&

        ((NULL == (ret->chk_uri = GNUNET_FS_uri_parse (chks, NULL))) ||

         (GNUNET_YES != GNUNET_FS_uri_test_chk (ret->chk_uri)))) ||

       (GNUNET_OK != GNUNET_BIO_read_string (rh, "sks-uri", &skss, 1024)) ||

       ((NULL != skss) &&

        ((NULL == (ret->sks_uri = GNUNET_FS_uri_parse (skss, NULL))) ||

         (GNUNET_YES != GNUNET_FS_uri_test_sks (ret->sks_uri)))) ||

       (GNUNET_OK != read_start_time (rh, &ret->start_time)) ||

       (GNUNET_OK !=

        GNUNET_BIO_read_string (rh, "emsg", &ret->emsg, 16 * 1024)) ||

       (GNUNET_OK !=

        GNUNET_BIO_read_string (rh, "fn", &ret->filename, 16 * 1024)) ||

       (GNUNET_OK !=

        GNUNET_BIO_read_int64 (

          rh,

          "expiration time",

          (int64_t *) &ret->bo.expiration_time.abs_value_us)) ||

       (GNUNET_OK != GNUNET_BIO_read_int32 (

          rh,

          "anonymity level",

          (int32_t *) &ret->bo.anonymity_level)) ||

       (GNUNET_OK != GNUNET_BIO_read_int32 (

          rh,

          "content priority",

          (int32_t *) &ret->bo.content_priority)) ||

       (GNUNET_OK != GNUNET_BIO_read_int32 (

          rh,

          "replication level",

          (int32_t *) &ret->bo.replication_level)))

   {

     GNUNET_break (0);

     goto cleanup;

   }

   switch (b)

   {

   case 0:   /* file-insert */

     if (GNUNET_OK != GNUNET_BIO_read_int64 (

           rh,

           "file size",

           (int64_t *) &ret->data.file.file_size))

     {

       GNUNET_break (0);

       goto cleanup;

     }

     ret->is_directory = GNUNET_NO;

     ret->data.file.do_index = GNUNET_NO;

     ret->data.file.have_hash = GNUNET_NO;

     ret->data.file.index_start_confirmed = GNUNET_NO;

     if (GNUNET_NO == ret->is_published)

     {

       if (NULL == ret->filename)

       {

         ret->data.file.reader = &GNUNET_FS_data_reader_copy_;

         ret->data.file.reader_cls =

           GNUNET_malloc_large (ret->data.file.file_size);

         if (ret->data.file.reader_cls == NULL)

           goto cleanup;

         if (GNUNET_OK != GNUNET_BIO_read (rh,

                                           "file-data",

                                           ret->data.file.reader_cls,

                                           ret->data.file.file_size))

         {

           GNUNET_break (0);

           goto cleanup;

         }

       }

       else

       {

         ret->data.file.reader = &GNUNET_FS_data_reader_file_;

         ret->data.file.reader_cls =

           GNUNET_FS_make_file_reader_context_ (ret->filename);

       }

     }

     break;


   case 1:   /* file-index, no hash */

     if (NULL == ret->filename)

     {

       GNUNET_break (0);

       goto cleanup;

     }

     if (GNUNET_OK != GNUNET_BIO_read_int64 (

           rh,

           "file size",

           (int64_t *) &ret->data.file.file_size))

     {

       GNUNET_break (0);

       goto cleanup;

     }

     ret->is_directory = GNUNET_NO;

     ret->data.file.do_index = GNUNET_YES;

     ret->data.file.have_hash = GNUNET_NO;

     ret->data.file.index_start_confirmed = GNUNET_NO;

     ret->data.file.reader = &GNUNET_FS_data_reader_file_;

     ret->data.file.reader_cls =

       GNUNET_FS_make_file_reader_context_ (ret->filename);

     break;


   case 2:   /* file-index-with-hash */

     if (NULL == ret->filename)

     {

       GNUNET_break (0);

       goto cleanup;

     }

     if ((GNUNET_OK != GNUNET_BIO_read_int64 (

            rh,

            "file size",

            (int64_t *) &ret->data.file.file_size)) ||

         (GNUNET_OK != GNUNET_BIO_read (rh,

                                        "fileid",

                                        &ret->data.file.file_id,

                                        sizeof(struct GNUNET_HashCode))))

     {

       GNUNET_break (0);

       goto cleanup;

     }

     ret->is_directory = GNUNET_NO;

     ret->data.file.do_index = GNUNET_YES;

     ret->data.file.have_hash = GNUNET_YES;

     ret->data.file.index_start_confirmed = GNUNET_NO;

     ret->data.file.reader = &GNUNET_FS_data_reader_file_;

     ret->data.file.reader_cls =

       GNUNET_FS_make_file_reader_context_ (ret->filename);

     break;


   case 3:   /* file-index-with-hash-confirmed */

     if (NULL == ret->filename)

     {

       GNUNET_break (0);

       goto cleanup;

     }

     if ((GNUNET_OK != GNUNET_BIO_read_int64 (

            rh,

            "file size",

            (int64_t *) &ret->data.file.file_size)) ||

         (GNUNET_OK != GNUNET_BIO_read (rh,

                                        "fileid",

                                        &ret->data.file.file_id,

                                        sizeof(struct GNUNET_HashCode))))

     {

       GNUNET_break (0);

       goto cleanup;

     }

     ret->is_directory = GNUNET_NO;

     ret->data.file.do_index = GNUNET_YES;

     ret->data.file.have_hash = GNUNET_YES;

     ret->data.file.index_start_confirmed = GNUNET_YES;

     ret->data.file.reader = &GNUNET_FS_data_reader_file_;

     ret->data.file.reader_cls =

       GNUNET_FS_make_file_reader_context_ (ret->filename);

     break;


   case 4:   /* directory */

     ret->is_directory = GNUNET_YES;

     if ((GNUNET_OK != GNUNET_BIO_read_int32 (rh, "dsize",

                                              (int32_t *) &dsize)) ||

         (GNUNET_OK !=

          GNUNET_BIO_read_int64 (

            rh,

            "contents completed",

            (int64_t *) &ret->data.dir.contents_completed)) ||

         (GNUNET_OK !=

          GNUNET_BIO_read_int64 (

            rh,

            "contents size",

            (int64_t *) &ret->data.dir.contents_size)) ||

         (NULL == (ret->data.dir.dir_data = GNUNET_malloc_large (dsize))) ||

         (GNUNET_OK !=

          GNUNET_BIO_read (rh, "dir-data", ret->data.dir.dir_data, dsize)) ||

         (GNUNET_OK !=

          GNUNET_BIO_read_string (rh, "ent-filename", &filename, 16 * 1024)))

     {

       GNUNET_break (0);

       goto cleanup;

     }

     ret->data.dir.dir_size = (uint32_t) dsize;

     if (NULL != filename)

     {

       ret->data.dir.entries = deserialize_file_information (h, filename);

       GNUNET_free (filename);

       filename = NULL;

       nxt = ret->data.dir.entries;

       while (NULL != nxt)

       {

         nxt->dir = ret;

         nxt = nxt->next;

       }

     }

     break;


   default:

     GNUNET_break (0);

     goto cleanup;

   }

   ret->serialization = GNUNET_strdup (fn);

   if (GNUNET_OK !=

       GNUNET_BIO_read_string (rh, "nxt-filename", &filename, 16 * 1024))

   {

     GNUNET_break (0);

     goto cleanup;

   }

   if (NULL != filename)

   {

     ret->next = deserialize_file_information (h, filename);

     GNUNET_free (filename);

     filename = NULL;

   }

   GNUNET_free (ksks);

   GNUNET_free (skss);

   GNUNET_free (chks);

   return ret;

 cleanup:

   GNUNET_free (ksks);

   GNUNET_free (chks);

   GNUNET_free (skss);

   GNUNET_free (filename);

   GNUNET_FS_file_information_destroy (ret, NULL, NULL);

   return NULL;

 }


 static struct GNUNET_FS_FileInformation *

 deserialize_file_information (struct GNUNET_FS_Handle *h, const char *filename)

 {

   struct GNUNET_FS_FileInformation *ret;

   struct GNUNET_BIO_ReadHandle *rh;

   char *emsg;

   char *fn;


   rh = get_read_handle (h, GNUNET_FS_SYNC_PATH_FILE_INFO, filename);

   if (NULL == rh)

     return NULL;

   ret = deserialize_fi_node (h, filename, rh);

   if (GNUNET_OK != GNUNET_BIO_read_close (rh, &emsg))

   {

     GNUNET_log (GNUNET_ERROR_TYPE_WARNING,

                 _ ("Failed to resume publishing information `%s': %s\n"),

                 filename,

                 emsg);

     GNUNET_free (emsg);

   }

   if (NULL == ret)

   {

     fn =

       get_serialization_file_name (h, GNUNET_FS_SYNC_PATH_FILE_INFO, filename);

     if (NULL != fn)

     {

       if (0 != unlink (fn))

         GNUNET_log_strerror_file (GNUNET_ERROR_TYPE_WARNING, "unlink", fn);

       GNUNET_free (fn);

     }

   }

   return ret;

 }


 static char *

 get_serialization_short_name (const char *fullname)

 {

   const char *end;

   const char *nxt;


   end = NULL;

   nxt = fullname;

   /* FIXME: we could do this faster since we know

    * the length of 'end'... */

   while ('\0' != *nxt)

   {

     if (DIR_SEPARATOR == *nxt)

       end = nxt + 1;

     nxt++;

   }

   if ((NULL == end) || (0 == strlen (end)))

   {

     GNUNET_break (0);

     return NULL;

   }

   GNUNET_break (6 == strlen (end));

   return GNUNET_strdup (end);

 }


 static char *

 make_serialization_file_name (struct GNUNET_FS_Handle *h, const char *ext)

 {

   char *fn;

   char *dn;

   char *ret;


   if (0 == (h->flags & GNUNET_FS_FLAGS_PERSISTENCE))

     return NULL; /* persistence not requested */

   dn = get_serialization_file_name (h, ext, "");

   if (NULL == dn)

     return NULL;

   if (GNUNET_OK != GNUNET_DISK_directory_create_for_file (dn))

   {

     GNUNET_free (dn);

     return NULL;

   }

   fn = GNUNET_DISK_mktemp (dn);

   GNUNET_free (dn);

   if (NULL == fn)

     return NULL; /* epic fail */

   ret = get_serialization_short_name (fn);

   GNUNET_free (fn);

   return ret;

 }


 static char *

 make_serialization_file_name_in_dir (struct GNUNET_FS_Handle *h,

                                      const char *ext,

                                      const char *uni)

 {

   char *fn;

   char *dn;

   char *ret;


   if (0 == (h->flags & GNUNET_FS_FLAGS_PERSISTENCE))

     return NULL; /* persistence not requested */

   dn = get_serialization_file_name_in_dir (h, ext, uni, "");

   if (NULL == dn)

     return NULL;

   if (GNUNET_OK != GNUNET_DISK_directory_create_for_file (dn))

   {

     GNUNET_free (dn);

     return NULL;

   }

   fn = GNUNET_DISK_mktemp (dn);

   GNUNET_free (dn);

   if (NULL == fn)

     return NULL; /* epic fail */

   ret = get_serialization_short_name (fn);

   GNUNET_free (fn);

   return ret;

 }


 static int

 copy_from_reader (struct GNUNET_BIO_WriteHandle *wh,

                   struct GNUNET_FS_FileInformation *fi)

 {

   char buf[32 * 1024];

   uint64_t off;

   size_t ret;

   size_t left;

   char *emsg;


   emsg = NULL;

   off = 0;

   while (off < fi->data.file.file_size)

   {

     left = GNUNET_MIN (sizeof(buf), fi->data.file.file_size - off);

     ret =

       fi->data.file.reader (fi->data.file.reader_cls, off, left, buf, &emsg);

     if (0 == ret)

     {

       GNUNET_free (emsg);

       return GNUNET_SYSERR;

     }

     if (GNUNET_OK != GNUNET_BIO_write (wh, "copied from reader", buf, ret))

       return GNUNET_SYSERR;

     off += ret;

   }

   return GNUNET_OK;

 }


 void

 GNUNET_FS_file_information_sync_ (struct GNUNET_FS_FileInformation *fi)

 {

   char *fn;

   struct GNUNET_BIO_WriteHandle *wh;

   char b;

   char *ksks;

   char *chks;

   char *skss;


   if (NULL == fi->serialization)

     fi->serialization =

       make_serialization_file_name (fi->h, GNUNET_FS_SYNC_PATH_FILE_INFO);

   if (NULL == fi->serialization)

     return;

   wh =

     get_write_handle (fi->h, GNUNET_FS_SYNC_PATH_FILE_INFO, fi->serialization);

   if (NULL == wh)

   {

     GNUNET_free (fi->serialization);

     fi->serialization = NULL;

     return;

   }

   if (GNUNET_YES == fi->is_directory)

     b = 4;

   else if (GNUNET_YES == fi->data.file.index_start_confirmed)

     b = 3;

   else if (GNUNET_YES == fi->data.file.have_hash)

     b = 2;

   else if (GNUNET_YES == fi->data.file.do_index)

     b = 1;

   else

     b = 0;

   if (NULL != fi->keywords)

     ksks = GNUNET_FS_uri_to_string (fi->keywords);

   else

     ksks = NULL;

   if (NULL != fi->chk_uri)

     chks = GNUNET_FS_uri_to_string (fi->chk_uri);

   else

     chks = NULL;

   if (NULL != fi->sks_uri)

     skss = GNUNET_FS_uri_to_string (fi->sks_uri);

   else

     skss = NULL;

   struct GNUNET_BIO_WriteSpec ws1[] = {

     GNUNET_BIO_write_spec_object ("b", &b, sizeof (b)),

     GNUNET_FS_write_spec_meta_data ("meta", fi->meta),

     GNUNET_BIO_write_spec_string ("ksks", ksks),

     GNUNET_BIO_write_spec_string ("chks", chks),

     GNUNET_BIO_write_spec_string ("skss", skss),

     GNUNET_BIO_write_spec_end (),

   };

   struct GNUNET_BIO_WriteSpec ws2[] = {

     GNUNET_BIO_write_spec_string ("emsg", fi->emsg),

     GNUNET_BIO_write_spec_string ("filename", fi->filename),

     GNUNET_BIO_write_spec_int64 (

       "expiration time",

       (int64_t *) &fi->bo.expiration_time.abs_value_us),

     GNUNET_BIO_write_spec_int32 (

       "anonymity level",

       (int32_t *) &fi->bo.anonymity_level),

     GNUNET_BIO_write_spec_int32 (

       "content priority",

       (int32_t *) &fi->bo.content_priority),

     GNUNET_BIO_write_spec_int32 (

       "replication level",

       (int32_t *) &fi->bo.replication_level),

     GNUNET_BIO_write_spec_end (),

   };

   if ((GNUNET_OK != GNUNET_BIO_write_spec_commit (wh, ws1)) ||

       (GNUNET_OK != write_start_time (wh, fi->start_time)) ||

       (GNUNET_OK != GNUNET_BIO_write_spec_commit (wh, ws2)))

   {

     GNUNET_break (0);

     goto cleanup;

   }

   GNUNET_free (chks);

   chks = NULL;

   GNUNET_free (ksks);

   ksks = NULL;

   GNUNET_free (skss);

   skss = NULL;


   switch (b)

   {

   case 0:   /* file-insert */

     if (GNUNET_OK != GNUNET_BIO_write_int64 (wh, "file size",

                                              fi->data.file.file_size))

     {

       GNUNET_break (0);

       goto cleanup;

     }

     if ((GNUNET_NO == fi->is_published) && (NULL == fi->filename))

       if (GNUNET_OK != copy_from_reader (wh, fi))

       {

         GNUNET_break (0);

         goto cleanup;

       }

     break;


   case 1:   /* file-index, no hash */

     if (NULL == fi->filename)

     {

       GNUNET_break (0);

       goto cleanup;

     }

     if (GNUNET_OK != GNUNET_BIO_write_int64 (wh, "file size",

                                              fi->data.file.file_size))

     {

       GNUNET_break (0);

       goto cleanup;

     }

     break;


   case 2:   /* file-index-with-hash */

   case 3:   /* file-index-with-hash-confirmed */

     if (NULL == fi->filename)

     {

       GNUNET_break (0);

       goto cleanup;

     }

     if ((GNUNET_OK != GNUNET_BIO_write_int64 (wh, "file size",

                                               fi->data.file.file_size)) ||

         (GNUNET_OK != GNUNET_BIO_write (wh,

                                         "file id",

                                         &fi->data.file.file_id,

                                         sizeof(struct GNUNET_HashCode))))

     {

       GNUNET_break (0);

       goto cleanup;

     }

     break;


   case 4:   /* directory */

     if ((NULL != fi->data.dir.entries) &&

         (NULL == fi->data.dir.entries->serialization))

       GNUNET_FS_file_information_sync_ (fi->data.dir.entries);

     struct GNUNET_BIO_WriteSpec ws[] = {

       GNUNET_BIO_write_spec_int32 ("dir size",

                                    (int32_t *) &fi->data.dir.dir_size),

       GNUNET_BIO_write_spec_int64 (

         "contents completed",

         (int64_t *) &fi->data.dir.contents_completed),

       GNUNET_BIO_write_spec_int64 ("contents size",

                                    (int64_t *) &fi->data.dir.contents_size),

       GNUNET_BIO_write_spec_object ("dir data",

                                     fi->data.dir.dir_data,

                                     (uint32_t) fi->data.dir.dir_size),

       GNUNET_BIO_write_spec_string ("dir entries",

                                     (fi->data.dir.entries == NULL)

                                     ? NULL

                                     : fi->data.dir.entries->serialization),

       GNUNET_BIO_write_spec_end (),

     };

     if ((GNUNET_OK != GNUNET_BIO_write_spec_commit (wh, ws)))

     {

       GNUNET_break (0);

       goto cleanup;

     }

     break;


   default:

     GNUNET_assert (0);

     goto cleanup;

   }

   if ((NULL != fi->next) && (NULL == fi->next->serialization))

     GNUNET_FS_file_information_sync_ (fi->next);

   if (GNUNET_OK != GNUNET_BIO_write_string (wh,

                                             "serialization",

                                             (fi->next != NULL)

                                             ? fi->next->serialization

                                             : NULL))

   {

     GNUNET_break (0);

     goto cleanup;

   }

   if (GNUNET_OK != GNUNET_BIO_write_close (wh, NULL))

   {

     wh = NULL;

     GNUNET_break (0);

     goto cleanup;

   }

   return; /* done! */

 cleanup:

   if (NULL != wh)

     (void) GNUNET_BIO_write_close (wh, NULL);

   GNUNET_free (chks);

   GNUNET_free (ksks);

   GNUNET_free (skss);

   fn = get_serialization_file_name (fi->h,

                                     GNUNET_FS_SYNC_PATH_FILE_INFO,

                                     fi->serialization);

   if (NULL != fn)

   {

     if (0 != unlink (fn))

       GNUNET_log_strerror_file (GNUNET_ERROR_TYPE_WARNING, "unlink", fn);

     GNUNET_free (fn);

   }

   GNUNET_free (fi->serialization);

   fi->serialization = NULL;

 }


 static struct GNUNET_FS_FileInformation *

 find_file_position (struct GNUNET_FS_FileInformation *pos, const char *srch)

 {

   struct GNUNET_FS_FileInformation *r;


   while (NULL != pos)

   {

     if (0 == strcmp (srch, pos->serialization))

       return pos;

     if ((GNUNET_YES == pos->is_directory) &&

         (NULL != (r = find_file_position (pos->data.dir.entries, srch))))

       return r;

     pos = pos->next;

   }

   return NULL;

 }


 static int

 fip_signal_resume (void *cls,

                    struct GNUNET_FS_FileInformation *fi,

                    uint64_t length,

                    struct GNUNET_FS_MetaData *meta,

                    struct GNUNET_FS_Uri **uri,

                    struct GNUNET_FS_BlockOptions *bo,

                    int *do_index,

                    void **client_info)

 {

   struct GNUNET_FS_PublishContext *pc = cls;

   struct GNUNET_FS_ProgressInfo pi;


   if (GNUNET_YES == pc->skip_next_fi_callback)

   {

     pc->skip_next_fi_callback = GNUNET_NO;

     return GNUNET_OK;

   }

   pi.status = GNUNET_FS_STATUS_PUBLISH_RESUME;

   pi.value.publish.specifics.resume.message = fi->emsg;

   pi.value.publish.specifics.resume.chk_uri = fi->chk_uri;

   *client_info = GNUNET_FS_publish_make_status_ (&pi, pc, fi, 0);

   if (GNUNET_YES == GNUNET_FS_meta_data_test_for_directory (meta))

   {

     /* process entries in directory */

     pc->skip_next_fi_callback = GNUNET_YES;

     GNUNET_FS_file_information_inspect (fi, &fip_signal_resume, pc);

   }

   return GNUNET_OK;

 }


 static int

 deserialize_publish_file (void *cls, const char *filename)

 {

   struct GNUNET_FS_Handle *h = cls;

   struct GNUNET_BIO_ReadHandle *rh;

   struct GNUNET_FS_PublishContext *pc;

   int32_t options;

   int32_t all_done;

   int32_t have_ns;

   char *fi_root;

   struct GNUNET_CRYPTO_EcdsaPrivateKey ns;

   char *fi_pos;

   char *emsg;


   pc = GNUNET_new (struct GNUNET_FS_PublishContext);

   pc->h = h;

   pc->serialization = get_serialization_short_name (filename);

   fi_root = NULL;

   fi_pos = NULL;

   rh = GNUNET_BIO_read_open_file (filename);

   if (NULL == rh)

   {

     GNUNET_break (0);

     goto cleanup;

   }

   struct GNUNET_BIO_ReadSpec rs[] = {

     GNUNET_BIO_read_spec_string ("publish-nid", &pc->nid, 1024),

     GNUNET_BIO_read_spec_string ("publish-nuid", &pc->nuid, 1024),

     GNUNET_BIO_read_spec_int32 ("options", &options),

     GNUNET_BIO_read_spec_int32 ("all done", &all_done),

     GNUNET_BIO_read_spec_int32 ("have ns", &have_ns),

     GNUNET_BIO_read_spec_string ("publish-firoot", &fi_root, 128),

     GNUNET_BIO_read_spec_string ("publish-fipos", &fi_pos, 128),

     GNUNET_BIO_read_spec_end (),

   };

   if ((GNUNET_OK != GNUNET_BIO_read_spec_commit (rh, rs)) ||

       ((GNUNET_YES == have_ns) &&

        (GNUNET_OK != GNUNET_BIO_read (rh, "publish-ns", &ns, sizeof(ns)))))

   {

     GNUNET_break (0);

     goto cleanup;

   }

   pc->options = options;

   pc->all_done = all_done;

   if (NULL == fi_root)

   {

     GNUNET_break (0);

     goto cleanup;

   }

   pc->fi = deserialize_file_information (h, fi_root);

   if (NULL == pc->fi)

   {

     GNUNET_break (0);

     goto cleanup;

   }

   if (GNUNET_YES == have_ns)

   {

     pc->ns = GNUNET_new (struct GNUNET_CRYPTO_EcdsaPrivateKey);

     *pc->ns = ns;

   }

   if ((0 == (pc->options & GNUNET_FS_PUBLISH_OPTION_SIMULATE_ONLY)) &&

       (GNUNET_YES != pc->all_done))

   {

     pc->dsh = GNUNET_DATASTORE_connect (h->cfg);

     if (NULL == pc->dsh)

       goto cleanup;

   }

   if (NULL != fi_pos)

   {

     pc->fi_pos = find_file_position (pc->fi, fi_pos);

     GNUNET_free (fi_pos);

     fi_pos = NULL;

     if (NULL == pc->fi_pos)

     {

       /* failed to find position for resuming, outch! Will start from root! */

       GNUNET_break (0);

       if (GNUNET_YES != pc->all_done)

         pc->fi_pos = pc->fi;

     }

   }

   GNUNET_free (fi_root);

   fi_root = NULL;

   /* generate RESUME event(s) */

   GNUNET_FS_file_information_inspect (pc->fi, &fip_signal_resume, pc);


   /* re-start publishing (if needed)... */

   if (GNUNET_YES != pc->all_done)

   {

     GNUNET_assert (NULL == pc->upload_task);

     pc->upload_task =

       GNUNET_SCHEDULER_add_with_priority (GNUNET_SCHEDULER_PRIORITY_BACKGROUND,

                                           &GNUNET_FS_publish_main_,

                                           pc);

   }

   if (GNUNET_OK != GNUNET_BIO_read_close (rh, &emsg))

   {

     GNUNET_log (GNUNET_ERROR_TYPE_WARNING,

                 _ ("Failure while resuming publishing operation `%s': %s\n"),

                 filename,

                 emsg);

     GNUNET_free (emsg);

   }

   pc->top = GNUNET_FS_make_top (h, &GNUNET_FS_publish_signal_suspend_, pc);

   return GNUNET_OK;

 cleanup:

   GNUNET_free (pc->nid);

   GNUNET_free (pc->nuid);

   GNUNET_free (fi_root);

   GNUNET_free (fi_pos);

   if ((NULL != rh) && (GNUNET_OK != GNUNET_BIO_read_close (rh, &emsg)))

   {

     GNUNET_log (GNUNET_ERROR_TYPE_WARNING,

                 _ ("Failed to resume publishing operation `%s': %s\n"),

                 filename,

                 emsg);

     GNUNET_free (emsg);

   }

   if (NULL != pc->fi)

     GNUNET_FS_file_information_destroy (pc->fi, NULL, NULL);

   if (0 != unlink (filename))

     GNUNET_log_strerror_file (GNUNET_ERROR_TYPE_WARNING, "unlink", filename);

   GNUNET_free (pc->serialization);

   GNUNET_free (pc);

   return GNUNET_OK;

 }


 void

 GNUNET_FS_publish_sync_ (struct GNUNET_FS_PublishContext *pc)

 {

   struct GNUNET_BIO_WriteHandle *wh;

   int32_t have_ns;


   if (NULL == pc->serialization)

     pc->serialization =

       make_serialization_file_name (pc->h, GNUNET_FS_SYNC_PATH_MASTER_PUBLISH);

   if (NULL == pc->serialization)

     return;

   if (NULL == pc->fi)

     return;

   if (NULL == pc->fi->serialization)

   {

     GNUNET_break (0);

     return;

   }

   wh = get_write_handle (pc->h,

                          GNUNET_FS_SYNC_PATH_MASTER_PUBLISH,

                          pc->serialization);

   if (NULL == wh)

   {

     GNUNET_break (0);

     goto cleanup;

   }

   have_ns = (NULL != pc->ns) ? GNUNET_YES : GNUNET_NO;

   struct GNUNET_BIO_WriteSpec ws[] = {

     GNUNET_BIO_write_spec_string ("nid", pc->nid),

     GNUNET_BIO_write_spec_string ("nuid", pc->nuid),

     GNUNET_BIO_write_spec_int32 ("options", (int32_t *) &pc->options),

     GNUNET_BIO_write_spec_int32 ("all done", &pc->all_done),

     GNUNET_BIO_write_spec_int32 ("have ns", &have_ns),

     GNUNET_BIO_write_spec_string ("serialization", pc->fi->serialization),

     GNUNET_BIO_write_spec_string ("pos serialization", (NULL == pc->fi_pos)

                                   ? NULL

                                   : pc->fi_pos->serialization),

     GNUNET_BIO_read_spec_end ()

   };

   if ((GNUNET_OK != GNUNET_BIO_write_spec_commit (wh, ws)) ||

       ((NULL != pc->ns) &&

        (GNUNET_OK !=

         GNUNET_BIO_write (wh,

                           "ns",

                           pc->ns,

                           sizeof(struct GNUNET_CRYPTO_EcdsaPrivateKey)))))

   {

     GNUNET_break (0);

     goto cleanup;

   }

   if (GNUNET_OK != GNUNET_BIO_write_close (wh, NULL))

   {

     wh = NULL;

     GNUNET_break (0);

     goto cleanup;

   }

   return;

 cleanup:

   if (NULL != wh)

     (void) GNUNET_BIO_write_close (wh, NULL);

   GNUNET_FS_remove_sync_file_ (pc->h,

                                GNUNET_FS_SYNC_PATH_MASTER_PUBLISH,

                                pc->serialization);

   GNUNET_free (pc->serialization);

   pc->serialization = NULL;

 }


 void

 GNUNET_FS_unindex_sync_ (struct GNUNET_FS_UnindexContext *uc)

 {

   struct GNUNET_BIO_WriteHandle *wh;

   char *uris;


   if (NULL == uc->serialization)

     uc->serialization =

       make_serialization_file_name (uc->h, GNUNET_FS_SYNC_PATH_MASTER_UNINDEX);

   if (NULL == uc->serialization)

     return;

   wh = get_write_handle (uc->h,

                          GNUNET_FS_SYNC_PATH_MASTER_UNINDEX,

                          uc->serialization);

   if (NULL == wh)

   {

     GNUNET_break (0);

     goto cleanup;

   }

   if (NULL != uc->ksk_uri)

     uris = GNUNET_FS_uri_to_string (uc->ksk_uri);

   else

     uris = NULL;

   struct GNUNET_BIO_WriteSpec ws1[] = {

     GNUNET_BIO_write_spec_string ("filename", uc->filename),

     GNUNET_BIO_write_spec_int64 ("file size", (int64_t *) &uc->file_size),

     GNUNET_BIO_write_spec_end (),

   };

   struct GNUNET_BIO_WriteSpec ws2[] = {

     GNUNET_BIO_write_spec_int32 ("state", (int32_t *) &uc->state),

     GNUNET_BIO_write_spec_object ("hashkey", &uc->chk,

                                   sizeof (struct ContentHashKey)),

     GNUNET_BIO_write_spec_string ("uris", uris),

     GNUNET_BIO_write_spec_int32 ("ksk offset", (int32_t *) &uc->ksk_offset),

     GNUNET_BIO_write_spec_end (),

   };

   if ((GNUNET_OK != GNUNET_BIO_write_spec_commit (wh, ws1)) ||

       (GNUNET_OK != write_start_time (wh, uc->start_time)) ||

       (GNUNET_OK != GNUNET_BIO_write_spec_commit (wh, ws2)) ||

       ((uc->state == UNINDEX_STATE_FS_NOTIFY) &&

        (GNUNET_OK != GNUNET_BIO_write (wh,

                                        "file id",

                                        &uc->file_id,

                                        sizeof(struct GNUNET_HashCode)))) ||

       ((uc->state == UNINDEX_STATE_ERROR) &&

        (GNUNET_OK != GNUNET_BIO_write_string (wh, "emsg", uc->emsg))))

   {

     GNUNET_break (0);

     goto cleanup;

   }

   if (GNUNET_OK != GNUNET_BIO_write_close (wh, NULL))

   {

     wh = NULL;

     GNUNET_break (0);

     goto cleanup;

   }

   return;

 cleanup:

   if (NULL != wh)

     (void) GNUNET_BIO_write_close (wh, NULL);

   GNUNET_FS_remove_sync_file_ (uc->h,

                                GNUNET_FS_SYNC_PATH_MASTER_UNINDEX,

                                uc->serialization);

   GNUNET_free (uc->serialization);

   uc->serialization = NULL;

 }


 static int

 write_download_request (struct GNUNET_BIO_WriteHandle *wh,

                         struct DownloadRequest *dr)

 {

   unsigned int i;

   struct GNUNET_BIO_WriteSpec ws[] = {

     GNUNET_BIO_write_spec_int32 ("state", (int32_t *) &dr->state),

     GNUNET_BIO_write_spec_int64 ("offset", (int64_t *) &dr->offset),

     GNUNET_BIO_write_spec_int32 ("num children", (int32_t *) &dr->num_children),

     GNUNET_BIO_write_spec_int32 ("depth", (int32_t *) &dr->depth),

     GNUNET_BIO_write_spec_end (),

   };


   if ((GNUNET_OK != GNUNET_BIO_write_spec_commit (wh, ws)))

     return GNUNET_NO;

   if ((BRS_CHK_SET == dr->state) &&

       (GNUNET_OK !=

        GNUNET_BIO_write (wh, "hashkey",

                          &dr->chk, sizeof(struct ContentHashKey))))

     return GNUNET_NO;

   for (i = 0; i < dr->num_children; i++)

     if (GNUNET_NO == write_download_request (wh, dr->children[i]))

       return GNUNET_NO;

   return GNUNET_YES;

 }


 static struct DownloadRequest *

 read_download_request (struct GNUNET_BIO_ReadHandle *rh)

 {

   struct DownloadRequest *dr;

   unsigned int i;


   dr = GNUNET_new (struct DownloadRequest);

   struct GNUNET_BIO_ReadSpec rs[] = {

     GNUNET_BIO_read_spec_int32 ("state", (int32_t *) &dr->state),

     GNUNET_BIO_read_spec_int64 ("offset", (int64_t *) &dr->offset),

     GNUNET_BIO_read_spec_int32 ("num children", (int32_t *) &dr->num_children),

     GNUNET_BIO_read_spec_end (),

   };

   if ((GNUNET_OK != GNUNET_BIO_read_spec_commit (rh, rs)) ||

       (dr->num_children > CHK_PER_INODE) ||

       (GNUNET_OK != GNUNET_BIO_read_int32 (rh, "depth",

                                            (int32_t *) &dr->depth)) ||

       ((0 == dr->depth) && (dr->num_children > 0)) ||

       ((dr->depth > 0) && (0 == dr->num_children)))

   {

     GNUNET_break (0);

     dr->num_children = 0;

     goto cleanup;

   }

   if (dr->num_children > 0)

     dr->children =

       GNUNET_malloc (dr->num_children * sizeof(struct DownloadRequest *));

   switch (dr->state)

   {

   case BRS_INIT:

   case BRS_RECONSTRUCT_DOWN:

   case BRS_RECONSTRUCT_META_UP:

   case BRS_RECONSTRUCT_UP:

     break;


   case BRS_CHK_SET:

     if (GNUNET_OK !=

         GNUNET_BIO_read (rh, "chk", &dr->chk, sizeof(struct ContentHashKey)))

       goto cleanup;

     break;


   case BRS_DOWNLOAD_DOWN:

   case BRS_DOWNLOAD_UP:

   case BRS_ERROR:

     break;


   default:

     GNUNET_break (0);

     goto cleanup;

   }

   for (i = 0; i < dr->num_children; i++)

   {

     if (NULL == (dr->children[i] = read_download_request (rh)))

       goto cleanup;

     dr->children[i]->parent = dr;

   }

   return dr;

 cleanup:

   GNUNET_FS_free_download_request_ (dr);

   return NULL;

 }


 static char *

 get_download_sync_filename (struct GNUNET_FS_DownloadContext *dc,

                             const char *uni,

                             const char *ext)

 {

   char *par;

   char *epar;


   if (dc->parent == NULL)

     return get_serialization_file_name (dc->h,

                                         (dc->search != NULL)

                                         ? GNUNET_FS_SYNC_PATH_CHILD_DOWNLOAD

                                         : GNUNET_FS_SYNC_PATH_MASTER_DOWNLOAD,

                                         uni);

   if (NULL == dc->parent->serialization)

     return NULL;

   par = get_download_sync_filename (dc->parent, dc->parent->serialization, "");

   if (NULL == par)

     return NULL;

   GNUNET_asprintf (&epar, "%s.dir%s%s%s", par, DIR_SEPARATOR_STR, uni, ext);

   GNUNET_free (par);

   return epar;

 }


 void

 GNUNET_FS_download_sync_ (struct GNUNET_FS_DownloadContext *dc)

 {

   struct GNUNET_BIO_WriteHandle *wh;

   char *uris;

   char *fn;

   char *dir;


   if (0 != (dc->options & GNUNET_FS_DOWNLOAD_IS_PROBE))

     return; /* we don't sync probes */

   if (NULL == dc->serialization)

   {

     dir = get_download_sync_filename (dc, "", "");

     if (NULL == dir)

       return;

     if (GNUNET_OK != GNUNET_DISK_directory_create_for_file (dir))

     {

       GNUNET_free (dir);

       return;

     }

     fn = GNUNET_DISK_mktemp (dir);

     GNUNET_free (dir);

     if (NULL == fn)

       return;

     dc->serialization = get_serialization_short_name (fn);

   }

   else

   {

     fn = get_download_sync_filename (dc, dc->serialization, "");

     if (NULL == fn)

     {

       GNUNET_free (dc->serialization);

       dc->serialization = NULL;

       GNUNET_free (fn);

       return;

     }

   }

   wh = GNUNET_BIO_write_open_file (fn);

   if (NULL == wh)

   {

     GNUNET_free (dc->serialization);

     dc->serialization = NULL;

     GNUNET_free (fn);

     return;

   }

   GNUNET_assert ((GNUNET_YES == GNUNET_FS_uri_test_chk (dc->uri)) ||

                  (GNUNET_YES == GNUNET_FS_uri_test_loc (dc->uri)));

   uris = GNUNET_FS_uri_to_string (dc->uri);

   struct GNUNET_BIO_WriteSpec ws1[] = {

     GNUNET_BIO_write_spec_string ("uris", uris),

     GNUNET_FS_write_spec_meta_data ("metadata", dc->meta),

     GNUNET_BIO_write_spec_string ("emsg", dc->emsg),

     GNUNET_BIO_write_spec_string ("filename", dc->filename),

     GNUNET_BIO_write_spec_string ("temp filename", dc->temp_filename),

     GNUNET_BIO_write_spec_int64 ("old file size",

                                  (int64_t *) &dc->old_file_size),

     GNUNET_BIO_write_spec_int64 ("offset", (int64_t *) &dc->offset),

     GNUNET_BIO_write_spec_int64 ("length", (int64_t *) &dc->length),

     GNUNET_BIO_write_spec_int64 ("completed", (int64_t *) &dc->completed),

     GNUNET_BIO_write_spec_end (),

   };

   struct GNUNET_BIO_WriteSpec ws2[] = {

     GNUNET_BIO_write_spec_int32 ("anonymity", (int32_t *) &dc->anonymity),

     GNUNET_BIO_write_spec_int32 ("options", (int32_t *) &dc->options),

     GNUNET_BIO_write_spec_int32 ("has finished", (int32_t *) &dc->has_finished),

     GNUNET_BIO_write_spec_end (),

   };

   if ((GNUNET_OK != GNUNET_BIO_write_spec_commit (wh, ws1)) ||

       (GNUNET_OK != write_start_time (wh, dc->start_time)) ||

       (GNUNET_OK != GNUNET_BIO_write_spec_commit (wh, ws2)))

   {

     GNUNET_break (0);

     goto cleanup;

   }

   if (NULL == dc->emsg)

   {

     GNUNET_assert (dc->top_request != NULL);

     if (GNUNET_YES != write_download_request (wh, dc->top_request))

     {

       GNUNET_break (0);

       goto cleanup;

     }

   }

   GNUNET_free (uris);

   uris = NULL;

   if (GNUNET_OK != GNUNET_BIO_write_close (wh, NULL))

   {

     wh = NULL;

     GNUNET_break (0);

     goto cleanup;

   }

   GNUNET_free (fn);

   return;

 cleanup:

   if (NULL != wh)

     (void) GNUNET_BIO_write_close (wh, NULL);

   GNUNET_free (uris);

   if (0 != unlink (fn))

     GNUNET_log_strerror_file (GNUNET_ERROR_TYPE_WARNING, "unlink", fn);

   GNUNET_free (fn);

   GNUNET_free (dc->serialization);

   dc->serialization = NULL;

 }


 void

 GNUNET_FS_search_result_sync_ (struct GNUNET_FS_SearchResult *sr)

 {

   struct GNUNET_BIO_WriteHandle *wh;

   char *uris;


   if (NULL == sr->sc)

     return;

   uris = NULL;

   if (NULL == sr->serialization)

     sr->serialization =

       make_serialization_file_name_in_dir (sr->h,

                                            (sr->sc->psearch_result == NULL)

                                            ? GNUNET_FS_SYNC_PATH_MASTER_SEARCH

                                            : GNUNET_FS_SYNC_PATH_CHILD_SEARCH,

                                            sr->sc->serialization);

   if (NULL == sr->serialization)

     return;

   wh = get_write_handle_in_dir (sr->h,

                                 (sr->sc->psearch_result == NULL)

                                 ? GNUNET_FS_SYNC_PATH_MASTER_SEARCH

                                 : GNUNET_FS_SYNC_PATH_CHILD_SEARCH,

                                 sr->sc->serialization,

                                 sr->serialization);

   if (NULL == wh)

   {

     GNUNET_break (0);

     goto cleanup;

   }

   uris = GNUNET_FS_uri_to_string (sr->uri);

   struct GNUNET_BIO_WriteSpec ws[] = {

     GNUNET_BIO_write_spec_string ("uris", uris),

     GNUNET_BIO_write_spec_string ("download serialization",

                                   (sr->download != NULL)

                                   ? sr->download->serialization

                                   : NULL),

     GNUNET_BIO_write_spec_string ("update search serialization",

                                   (sr->update_search != NULL)

                                   ? sr->update_search->serialization

                                   : NULL),

     GNUNET_FS_write_spec_meta_data ("metadata", sr->meta),

     GNUNET_BIO_write_spec_object ("key", &sr->key,

                                   sizeof(struct GNUNET_HashCode)),

     GNUNET_BIO_write_spec_int32 ("mandatory missing",

                                  (int32_t *) &sr->mandatory_missing),

     GNUNET_BIO_write_spec_int32 ("optional support",

                                  (int32_t *) &sr->optional_support),

     GNUNET_BIO_write_spec_int32 ("availability success",

                                  (int32_t *) &sr->availability_success),

     GNUNET_BIO_write_spec_int32 ("availability trials",

                                  (int32_t *) &sr->availability_trials),

     GNUNET_BIO_write_spec_end (),

   };

   if ((GNUNET_OK != GNUNET_BIO_write_spec_commit (wh, ws)))

   {

     GNUNET_break (0);

     goto cleanup;

   }

   if ((NULL != sr->uri) && (GNUNET_FS_URI_KSK == sr->sc->uri->type) &&

       (GNUNET_OK !=

        GNUNET_BIO_write (wh,

                          "keyword bitmap",

                          sr->keyword_bitmap,

                          (sr->sc->uri->data.ksk.keywordCount + 7) / 8)))

   {

     GNUNET_break (0);

     goto cleanup;

   }

   if (GNUNET_OK != GNUNET_BIO_write_close (wh, NULL))

   {

     wh = NULL;

     GNUNET_break (0);

     goto cleanup;

   }

   GNUNET_free (uris);

   return;

 cleanup:

   GNUNET_free (uris);

   if (NULL != wh)

     (void) GNUNET_BIO_write_close (wh, NULL);

   remove_sync_file_in_dir (sr->h,

                            (NULL == sr->sc->psearch_result)

                            ? GNUNET_FS_SYNC_PATH_MASTER_SEARCH

                            : GNUNET_FS_SYNC_PATH_CHILD_SEARCH,

                            sr->sc->serialization,

                            sr->serialization);

   GNUNET_free (sr->serialization);

   sr->serialization = NULL;

 }


 void

 GNUNET_FS_search_sync_ (struct GNUNET_FS_SearchContext *sc)

 {

   struct GNUNET_BIO_WriteHandle *wh;

   char *uris;

   char in_pause;

   const char *category;


   category = (NULL == sc->psearch_result) ? GNUNET_FS_SYNC_PATH_MASTER_SEARCH

              : GNUNET_FS_SYNC_PATH_CHILD_SEARCH;

   if (NULL == sc->serialization)

     sc->serialization = make_serialization_file_name (sc->h, category);

   if (NULL == sc->serialization)

     return;

   uris = NULL;

   wh = get_write_handle (sc->h, category, sc->serialization);

   if (NULL == wh)

   {

     GNUNET_break (0);

     goto cleanup;

   }

   GNUNET_assert ((GNUNET_YES == GNUNET_FS_uri_test_ksk (sc->uri)) ||

                  (GNUNET_YES == GNUNET_FS_uri_test_sks (sc->uri)));

   uris = GNUNET_FS_uri_to_string (sc->uri);

   in_pause = (sc->task != NULL) ? 'r' : '\0';

   if ((GNUNET_OK != GNUNET_BIO_write_string (wh, "uris", uris)) ||

       (GNUNET_OK != write_start_time (wh, sc->start_time)) ||

       (GNUNET_OK != GNUNET_BIO_write_string (wh, "emsg", sc->emsg)) ||

       (GNUNET_OK != GNUNET_BIO_write_int32 (wh, "options",

                                             (uint32_t) sc->options)) ||

       (GNUNET_OK != GNUNET_BIO_write (wh, "in pause",

                                       &in_pause, sizeof(in_pause))) ||

       (GNUNET_OK != GNUNET_BIO_write_int32 (wh, "anonymity", sc->anonymity)))

   {

     GNUNET_break (0);

     goto cleanup;

   }

   GNUNET_free (uris);

   uris = NULL;

   if (GNUNET_OK != GNUNET_BIO_write_close (wh, NULL))

   {

     wh = NULL;

     GNUNET_break (0);

     goto cleanup;

   }

   return;

 cleanup:

   if (NULL != wh)

     (void) GNUNET_BIO_write_close (wh, NULL);

   GNUNET_free (uris);

   GNUNET_FS_remove_sync_file_ (sc->h, category, sc->serialization);

   GNUNET_free (sc->serialization);

   sc->serialization = NULL;

 }


 static int

 deserialize_unindex_file (void *cls, const char *filename)

 {

   struct GNUNET_FS_Handle *h = cls;

   struct GNUNET_BIO_ReadHandle *rh;

   struct GNUNET_FS_UnindexContext *uc;

   struct GNUNET_FS_ProgressInfo pi;

   char *emsg;

   char *uris;

   uint32_t state;


   uc = GNUNET_new (struct GNUNET_FS_UnindexContext);

   uc->h = h;

   uc->serialization = get_serialization_short_name (filename);

   rh = GNUNET_BIO_read_open_file (filename);

   if (NULL == rh)

   {

     GNUNET_break (0);

     goto cleanup;

   }

   uris = NULL;

   if ((GNUNET_OK !=

        GNUNET_BIO_read_string (rh, "unindex-fn", &uc->filename, 10 * 1024)) ||

       (GNUNET_OK != GNUNET_BIO_read_int64 (rh, "file size",

                                            (int64_t *) &uc->file_size)) ||

       (GNUNET_OK != read_start_time (rh, &uc->start_time)) ||

       (GNUNET_OK != GNUNET_BIO_read_int32 (rh, "state",

                                            (int32_t *) &state)) ||

       (GNUNET_OK !=

        GNUNET_BIO_read (rh, "uri", &uc->chk, sizeof(struct ContentHashKey))) ||

       (GNUNET_OK !=

        GNUNET_BIO_read_string (rh, "unindex-kskuri", &uris, 10 * 1024)) ||

       (GNUNET_OK != GNUNET_BIO_read_int32 (rh, "ksk offset",

                                            (int32_t *) &uc->ksk_offset)))

   {

     GNUNET_free (uris);

     GNUNET_break (0);

     goto cleanup;

   }

   if (NULL != uris)

   {

     uc->ksk_uri = GNUNET_FS_uri_parse (uris, &emsg);

     GNUNET_free (uris);

     if (NULL == uc->ksk_uri)

     {

       GNUNET_break (0);

       GNUNET_free (emsg);

       goto cleanup;

     }

   }

   if ((uc->ksk_offset > 0) &&

       ((NULL == uc->ksk_uri) ||

        (uc->ksk_offset > uc->ksk_uri->data.ksk.keywordCount)))

   {

     GNUNET_break (0);

     goto cleanup;

   }

   uc->state = (enum UnindexState) state;

   switch (state)

   {

   case UNINDEX_STATE_HASHING:

     break;


   case UNINDEX_STATE_FS_NOTIFY:

     if (GNUNET_OK != GNUNET_BIO_read (rh,

                                       "unindex-hash",

                                       &uc->file_id,

                                       sizeof(struct GNUNET_HashCode)))

     {

       GNUNET_break (0);

       goto cleanup;

     }

     break;


   case UNINDEX_STATE_DS_REMOVE:

   case UNINDEX_STATE_EXTRACT_KEYWORDS:

   case UNINDEX_STATE_DS_REMOVE_KBLOCKS:

     break;


   case UNINDEX_STATE_COMPLETE:

     break;


   case UNINDEX_STATE_ERROR:

     if (GNUNET_OK !=

         GNUNET_BIO_read_string (rh, "unindex-emsg", &uc->emsg, 10 * 1024))

     {

       GNUNET_break (0);

       goto cleanup;

     }

     break;


   default:

     GNUNET_break (0);

     goto cleanup;

   }

   uc->top = GNUNET_FS_make_top (h, &GNUNET_FS_unindex_signal_suspend_, uc);

   pi.status = GNUNET_FS_STATUS_UNINDEX_RESUME;

   pi.value.unindex.specifics.resume.message = uc->emsg;

   GNUNET_FS_unindex_make_status_ (&pi,

                                   uc,

                                   (uc->state == UNINDEX_STATE_COMPLETE)

                                   ? uc->file_size

                                   : 0);

   switch (uc->state)

   {

   case UNINDEX_STATE_HASHING:

     uc->fhc = GNUNET_CRYPTO_hash_file (GNUNET_SCHEDULER_PRIORITY_IDLE,

                                        uc->filename,

                                        HASHING_BLOCKSIZE,

                                        &GNUNET_FS_unindex_process_hash_,

                                        uc);

     break;


   case UNINDEX_STATE_FS_NOTIFY:

     uc->state = UNINDEX_STATE_HASHING;

     GNUNET_FS_unindex_process_hash_ (uc, &uc->file_id);

     break;


   case UNINDEX_STATE_DS_REMOVE:

     GNUNET_FS_unindex_do_remove_ (uc);

     break;


   case UNINDEX_STATE_EXTRACT_KEYWORDS:

     GNUNET_FS_unindex_do_extract_keywords_ (uc);

     break;


   case UNINDEX_STATE_DS_REMOVE_KBLOCKS:

     GNUNET_FS_unindex_do_remove_kblocks_ (uc);

     break;


   case UNINDEX_STATE_COMPLETE:

   case UNINDEX_STATE_ERROR:

     /* no need to resume any operation, we were done */

     break;


   default:

     break;

   }

   if (GNUNET_OK != GNUNET_BIO_read_close (rh, &emsg))

   {

     GNUNET_log (GNUNET_ERROR_TYPE_WARNING,

                 _ ("Failure while resuming unindexing operation `%s': %s\n"),

                 filename,

                 emsg);

     GNUNET_free (emsg);

   }

   return GNUNET_OK;

 cleanup:

   GNUNET_free (uc->filename);

   if ((NULL != rh) && (GNUNET_OK != GNUNET_BIO_read_close (rh, &emsg)))

   {

     GNUNET_log (GNUNET_ERROR_TYPE_WARNING,

                 _ ("Failed to resume unindexing operation `%s': %s\n"),

                 filename,

                 emsg);

     GNUNET_free (emsg);

   }

   if (NULL != uc->serialization)

     GNUNET_FS_remove_sync_file_ (h,

                                  GNUNET_FS_SYNC_PATH_MASTER_UNINDEX,

                                  uc->serialization);

   GNUNET_free (uc->serialization);

   GNUNET_free (uc);

   return GNUNET_OK;

 }


 static void

 deserialize_download (struct GNUNET_FS_Handle *h,

                       struct GNUNET_BIO_ReadHandle *rh,

                       struct GNUNET_FS_DownloadContext *parent,

                       struct GNUNET_FS_SearchResult *search,

                       const char *serialization);


 static struct GNUNET_FS_SearchContext *

 deserialize_search (struct GNUNET_FS_Handle *h,

                     struct GNUNET_BIO_ReadHandle *rh,

                     struct GNUNET_FS_SearchResult *psearch_result,

                     const char *serialization);


 static int

 deserialize_search_result (void *cls, const char *filename)

 {

   struct GNUNET_FS_SearchContext *sc = cls;

   char *serialized;

   char *uris;

   char *emsg;

   char *download;

   char *update_srch;

   struct GNUNET_BIO_ReadHandle *rh;

   struct GNUNET_BIO_ReadHandle *drh;

   struct GNUNET_FS_SearchResult *sr;


   serialized = get_serialization_short_name (filename);

   rh = GNUNET_BIO_read_open_file (filename);

   if (NULL == rh)

   {

     if (NULL != serialized)

     {

       remove_sync_file_in_dir (sc->h,

                                (NULL == sc->psearch_result)

                                ? GNUNET_FS_SYNC_PATH_MASTER_SEARCH

                                : GNUNET_FS_SYNC_PATH_CHILD_SEARCH,

                                sc->serialization,

                                serialized);

       GNUNET_free (serialized);

     }

     return GNUNET_OK;

   }

   emsg = NULL;

   uris = NULL;

   download = NULL;

   update_srch = NULL;

   sr = GNUNET_new (struct GNUNET_FS_SearchResult);

   sr->h = sc->h;

   sr->sc = sc;

   sr->serialization = serialized;

   if ((GNUNET_OK !=

        GNUNET_BIO_read_string (rh, "result-uri", &uris, 10 * 1024)) ||

       (NULL == (sr->uri = GNUNET_FS_uri_parse (uris, &emsg))) ||

       (GNUNET_OK !=

        GNUNET_BIO_read_string (rh, "download-lnk", &download, 16)) ||

       (GNUNET_OK !=

        GNUNET_BIO_read_string (rh, "search-lnk", &update_srch, 16)) ||

       (GNUNET_OK != GNUNET_FS_read_meta_data (rh, "result-meta", &sr->meta)) ||

       (GNUNET_OK != GNUNET_BIO_read (rh,

                                      "result-key",

                                      &sr->key,

                                      sizeof(struct GNUNET_HashCode))) ||

       (GNUNET_OK != GNUNET_BIO_read_int32 (

          rh,

          "mandatory missing",

          (int32_t *) &sr->mandatory_missing)) ||

       (GNUNET_OK != GNUNET_BIO_read_int32 (

          rh,

          "optional support",

          (int32_t *) &sr->optional_support)) ||

       (GNUNET_OK != GNUNET_BIO_read_int32 (

          rh,

          "availability success",

          (int32_t *) &sr->availability_success)) ||

       (GNUNET_OK != GNUNET_BIO_read_int32 (

          rh,

          "availability trials",

          (int32_t *) &sr->availability_trials)))

   {

     GNUNET_break (0);

     goto cleanup;

   }

   if (GNUNET_FS_URI_KSK == sr->sc->uri->type)

   {

     sr->keyword_bitmap = GNUNET_malloc (

       (sr->sc->uri->data.ksk.keywordCount + 7) / 8);   /* round up, count bits */

     if (GNUNET_OK !=

         GNUNET_BIO_read (rh,

                          "keyword-bitmap",

                          sr->keyword_bitmap,

                          (sr->sc->uri->data.ksk.keywordCount + 7) / 8))

     {

       GNUNET_break (0);

       goto cleanup;

     }

   }

   GNUNET_free (uris);

   if (NULL != download)

   {

     drh = get_read_handle (sc->h, GNUNET_FS_SYNC_PATH_CHILD_DOWNLOAD, download);

     if (NULL != drh)

     {

       deserialize_download (sc->h, drh, NULL, sr, download);

       if (GNUNET_OK != GNUNET_BIO_read_close (drh, &emsg))

       {

         GNUNET_log (GNUNET_ERROR_TYPE_WARNING,

                     _ ("Failed to resume sub-download `%s': %s\n"),

                     download,

                     emsg);

         GNUNET_free (emsg);

       }

     }

     GNUNET_free (download);

   }

   if (NULL != update_srch)

   {

     drh =

       get_read_handle (sc->h, GNUNET_FS_SYNC_PATH_CHILD_SEARCH, update_srch);

     if (NULL != drh)

     {

       deserialize_search (sc->h, drh, sr, update_srch);

       if (GNUNET_OK != GNUNET_BIO_read_close (drh, &emsg))

       {

         GNUNET_log (GNUNET_ERROR_TYPE_WARNING,

                     _ ("Failed to resume sub-search `%s': %s\n"),

                     update_srch,

                     emsg);

         GNUNET_free (emsg);

       }

     }

     GNUNET_free (update_srch);

   }

   GNUNET_break (GNUNET_YES == GNUNET_CONTAINER_multihashmap_put (

                   sc->master_result_map,

                   &sr->key,

                   sr,

                   GNUNET_CONTAINER_MULTIHASHMAPOPTION_MULTIPLE));

   if (GNUNET_OK != GNUNET_BIO_read_close (rh, &emsg))

   {

     GNUNET_log (GNUNET_ERROR_TYPE_WARNING,

                 _ ("Failure while resuming search operation `%s': %s\n"),

                 filename,

                 emsg);

     GNUNET_free (emsg);

   }

   return GNUNET_OK;

 cleanup:

   GNUNET_free (download);

   GNUNET_free (emsg);

   GNUNET_free (uris);

   GNUNET_free (update_srch);

   if (NULL != sr->uri)

     GNUNET_FS_uri_destroy (sr->uri);

   if (NULL != sr->meta)

     GNUNET_FS_meta_data_destroy (sr->meta);

   GNUNET_free (sr->serialization);

   GNUNET_free (sr);

   if (GNUNET_OK != GNUNET_BIO_read_close (rh, &emsg))

   {

     GNUNET_log (GNUNET_ERROR_TYPE_WARNING,

                 _ ("Failure while resuming search operation `%s': %s\n"),

                 filename,

                 emsg);

     GNUNET_free (emsg);

   }

   return GNUNET_OK;

 }


 static void

 signal_download_resume (struct GNUNET_FS_DownloadContext *dc)

 {

   struct GNUNET_FS_DownloadContext *dcc;

   struct GNUNET_FS_ProgressInfo pi;


   pi.status = GNUNET_FS_STATUS_DOWNLOAD_RESUME;

   pi.value.download.specifics.resume.meta = dc->meta;

   pi.value.download.specifics.resume.message = dc->emsg;

   GNUNET_FS_download_make_status_ (&pi, dc);

   dcc = dc->child_head;

   while (NULL != dcc)

   {

     signal_download_resume (dcc);

     dcc = dcc->next;

   }

 }


 static void

 signal_search_resume (struct GNUNET_FS_SearchContext *sc);


 static int

 signal_result_resume (void *cls, const struct GNUNET_HashCode *key, void *value)

 {

   struct GNUNET_FS_SearchContext *sc = cls;

   struct GNUNET_FS_ProgressInfo pi;

   struct GNUNET_FS_SearchResult *sr = value;


   if (0 == sr->mandatory_missing)

   {

     pi.status = GNUNET_FS_STATUS_SEARCH_RESUME_RESULT;

     pi.value.search.specifics.resume_result.meta = sr->meta;

     pi.value.search.specifics.resume_result.uri = sr->uri;

     pi.value.search.specifics.resume_result.result = sr;

     pi.value.search.specifics.resume_result.availability_rank =

       2 * sr->availability_success - sr->availability_trials;

     pi.value.search.specifics.resume_result.availability_certainty =

       sr->availability_trials;

     pi.value.search.specifics.resume_result.applicability_rank =

       sr->optional_support;

     sr->client_info = GNUNET_FS_search_make_status_ (&pi, sc->h, sc);

   }

   if (NULL != sr->download)

   {

     signal_download_resume (sr->download);

   }

   else

   {

     GNUNET_FS_search_start_probe_ (sr);

   }

   if (NULL != sr->update_search)

     signal_search_resume (sr->update_search);

   return GNUNET_YES;

 }


 static void

 free_search_context (struct GNUNET_FS_SearchContext *sc);


 static int

 free_result (void *cls, const struct GNUNET_HashCode *key, void *value)

 {

   struct GNUNET_FS_SearchResult *sr = value;


   if (NULL != sr->update_search)

   {

     free_search_context (sr->update_search);

     GNUNET_assert (NULL == sr->update_search);

   }

   GNUNET_FS_meta_data_destroy (sr->meta);

   GNUNET_FS_uri_destroy (sr->uri);

   GNUNET_free (sr);

   return GNUNET_YES;

 }


 static void

 free_search_context (struct GNUNET_FS_SearchContext *sc)

 {

   if (NULL != sc->serialization)

   {

     GNUNET_FS_remove_sync_file_ (sc->h,

                                  (sc->psearch_result == NULL)

                                  ? GNUNET_FS_SYNC_PATH_MASTER_SEARCH

                                  : GNUNET_FS_SYNC_PATH_CHILD_SEARCH,

                                  sc->serialization);

     GNUNET_FS_remove_sync_dir_ (sc->h,

                                 (sc->psearch_result == NULL)

                                 ? GNUNET_FS_SYNC_PATH_MASTER_SEARCH

                                 : GNUNET_FS_SYNC_PATH_CHILD_SEARCH,

                                 sc->serialization);

   }

   GNUNET_free (sc->serialization);

   GNUNET_free (sc->emsg);

   if (NULL != sc->uri)

     GNUNET_FS_uri_destroy (sc->uri);

   if (NULL != sc->master_result_map)

   {

     GNUNET_CONTAINER_multihashmap_iterate (sc->master_result_map,

                                            &free_result,

                                            sc);

     GNUNET_CONTAINER_multihashmap_destroy (sc->master_result_map);

   }

   GNUNET_free (sc);

 }


 static int

 deserialize_subdownload (void *cls, const char *filename)

 {

   struct GNUNET_FS_DownloadContext *parent = cls;

   char *serialized;

   char *emsg;

   struct GNUNET_BIO_ReadHandle *rh;


   serialized = get_serialization_short_name (filename);

   rh = GNUNET_BIO_read_open_file (filename);

   if (NULL == rh)

   {

     GNUNET_log (GNUNET_ERROR_TYPE_WARNING,

                 _ (

                   "Failed to resume sub-download `%s': could not open file `%s'\n"),

                 serialized,

                 filename);

     GNUNET_free (serialized);

     return GNUNET_OK;

   }

   deserialize_download (parent->h, rh, parent, NULL, serialized);

   if (GNUNET_OK != GNUNET_BIO_read_close (rh, &emsg))

   {

     GNUNET_log (GNUNET_ERROR_TYPE_WARNING,

                 _ ("Failed to resume sub-download `%s': %s\n"),

                 serialized,

                 emsg);

     GNUNET_free (emsg);

   }

   GNUNET_free (serialized);

   return GNUNET_OK;

 }


 static void

 free_download_context (struct GNUNET_FS_DownloadContext *dc)

 {

   struct GNUNET_FS_DownloadContext *dcc;


   if (NULL != dc->meta)

     GNUNET_FS_meta_data_destroy (dc->meta);

   if (NULL != dc->uri)

     GNUNET_FS_uri_destroy (dc->uri);

   GNUNET_free (dc->temp_filename);

   GNUNET_free (dc->emsg);

   GNUNET_free (dc->filename);

   GNUNET_free (dc->serialization);

   while (NULL != (dcc = dc->child_head))

   {

     GNUNET_CONTAINER_DLL_remove (dc->child_head, dc->child_tail, dcc);

     free_download_context (dcc);

   }

   GNUNET_FS_free_download_request_ (dc->top_request);

   if (NULL != dc->active)

     GNUNET_CONTAINER_multihashmap_destroy (dc->active);

   GNUNET_free (dc);

 }


 static void

 deserialize_download (struct GNUNET_FS_Handle *h,

                       struct GNUNET_BIO_ReadHandle *rh,

                       struct GNUNET_FS_DownloadContext *parent,

                       struct GNUNET_FS_SearchResult *search,

                       const char *serialization)

 {

   struct GNUNET_FS_DownloadContext *dc;

   char *emsg;

   char *uris;

   char *dn;

   uint32_t options;

   uint32_t status;


   uris = NULL;

   emsg = NULL;

   dc = GNUNET_new (struct GNUNET_FS_DownloadContext);

   dc->parent = parent;

   dc->h = h;

   dc->serialization = GNUNET_strdup (serialization);

   struct GNUNET_BIO_ReadSpec rs[] = {

     GNUNET_FS_read_spec_meta_data ("download-meta", &dc->meta),

     GNUNET_BIO_read_spec_string ("download-emsg", &dc->emsg, 10 * 1024),

     GNUNET_BIO_read_spec_string ("download-fn", &dc->filename, 10 * 1024),

     GNUNET_BIO_read_spec_string ("download-tfn",

                                  &dc->temp_filename, 10 * 1024),

     GNUNET_BIO_read_spec_int64 ("old file size",

                                 (int64_t *) &dc->old_file_size),

     GNUNET_BIO_read_spec_int64 ("offset",

                                 (int64_t *) &dc->offset),

     GNUNET_BIO_read_spec_int64 ("length",

                                 (int64_t *) &dc->length),

     GNUNET_BIO_read_spec_int64 ("completed",

                                 (int64_t *) &dc->completed),

     GNUNET_BIO_read_spec_end (),

   };

   if ((GNUNET_OK !=

        GNUNET_BIO_read_string (rh, "download-uri", &uris, 10 * 1024)) ||

       (NULL == (dc->uri = GNUNET_FS_uri_parse (uris, &emsg))) ||

       ((GNUNET_YES != GNUNET_FS_uri_test_chk (dc->uri)) &&

        (GNUNET_YES != GNUNET_FS_uri_test_loc (dc->uri))) ||

       (GNUNET_OK != GNUNET_BIO_read_spec_commit (rh, rs)) ||

       (GNUNET_OK != read_start_time (rh, &dc->start_time)) ||

       (GNUNET_OK != GNUNET_BIO_read_int32 (rh, "anonymity",

                                            (int32_t *) &dc->anonymity)) ||

       (GNUNET_OK != GNUNET_BIO_read_int32 (rh, "options",

                                            (int32_t *) &options)) ||

       (GNUNET_OK != GNUNET_BIO_read_int32 (rh, "status",

                                            (int32_t *) &status)))

   {

     GNUNET_break (0);

     goto cleanup;

   }

   dc->options = (enum GNUNET_FS_DownloadOptions) options;

   dc->active =

     GNUNET_CONTAINER_multihashmap_create (1 + 2 * (dc->length / DBLOCK_SIZE),

                                           GNUNET_NO);

   dc->has_finished = (int) status;

   dc->treedepth =

     GNUNET_FS_compute_depth (GNUNET_FS_uri_chk_get_file_size (dc->uri));

   if (GNUNET_FS_uri_test_loc (dc->uri))

     GNUNET_assert (GNUNET_OK ==

                    GNUNET_FS_uri_loc_get_peer_identity (dc->uri, &dc->target));

   if (NULL == dc->emsg)

   {

     dc->top_request = read_download_request (rh);

     if (NULL == dc->top_request)

     {

       GNUNET_break (0);

       goto cleanup;

     }

   }

   dn = get_download_sync_filename (dc, dc->serialization, ".dir");

   if (NULL != dn)

   {

     if (GNUNET_YES == GNUNET_DISK_directory_test (dn, GNUNET_YES))

       GNUNET_DISK_directory_scan (dn, &deserialize_subdownload, dc);

     GNUNET_free (dn);

   }

   if (NULL != parent)

   {

     GNUNET_CONTAINER_DLL_insert (parent->child_head, parent->child_tail, dc);

   }

   if (NULL != search)

   {

     dc->search = search;

     search->download = dc;

   }

   if ((NULL == parent) && (NULL == search))

   {

     dc->top =

       GNUNET_FS_make_top (dc->h, &GNUNET_FS_download_signal_suspend_, dc);

     signal_download_resume (dc);

   }

   GNUNET_free (uris);

   GNUNET_assert (NULL == dc->job_queue);

   dc->task = GNUNET_SCHEDULER_add_now (&GNUNET_FS_download_start_task_, dc);

   return;

 cleanup:

   GNUNET_free (uris);

   GNUNET_free (emsg);

   free_download_context (dc);

 }


 static void

 signal_search_resume (struct GNUNET_FS_SearchContext *sc)

 {

   struct GNUNET_FS_ProgressInfo pi;


   pi.status = GNUNET_FS_STATUS_SEARCH_RESUME;

   pi.value.search.specifics.resume.message = sc->emsg;

   pi.value.search.specifics.resume.is_paused =

     (NULL == sc->mq) ? GNUNET_YES : GNUNET_NO;

   sc->client_info = GNUNET_FS_search_make_status_ (&pi, sc->h, sc);

   GNUNET_CONTAINER_multihashmap_iterate (sc->master_result_map,

                                          &signal_result_resume,

                                          sc);

 }


 static struct GNUNET_FS_SearchContext *

 deserialize_search (struct GNUNET_FS_Handle *h,

                     struct GNUNET_BIO_ReadHandle *rh,

                     struct GNUNET_FS_SearchResult *psearch_result,

                     const char *serialization)

 {

   struct GNUNET_FS_SearchContext *sc;

   char *emsg;

   char *uris;

   char *dn;

   uint32_t options;

   char in_pause;


   if ((NULL != psearch_result) && (NULL != psearch_result->update_search))

   {

     GNUNET_break (0);

     return NULL;

   }

   uris = NULL;

   emsg = NULL;

   sc = GNUNET_new (struct GNUNET_FS_SearchContext);

   if (NULL != psearch_result)

   {

     sc->psearch_result = psearch_result;

     psearch_result->update_search = sc;

   }

   sc->h = h;

   sc->serialization = GNUNET_strdup (serialization);

   if ((GNUNET_OK !=

        GNUNET_BIO_read_string (rh, "search-uri", &uris, 10 * 1024)) ||

       (NULL == (sc->uri = GNUNET_FS_uri_parse (uris, &emsg))) ||

       ((GNUNET_YES != GNUNET_FS_uri_test_ksk (sc->uri)) &&

        (GNUNET_YES != GNUNET_FS_uri_test_sks (sc->uri))) ||

       (GNUNET_OK != read_start_time (rh, &sc->start_time)) ||

       (GNUNET_OK !=

        GNUNET_BIO_read_string (rh, "search-emsg", &sc->emsg, 10 * 1024)) ||

       (GNUNET_OK != GNUNET_BIO_read_int32 (rh, "options",

                                            (int32_t *) &options)) ||

       (GNUNET_OK !=

        GNUNET_BIO_read (rh, "search-pause", &in_pause, sizeof(in_pause))) ||

       (GNUNET_OK != GNUNET_BIO_read_int32 (rh, "anonymity",

                                            (int32_t *) &sc->anonymity)))

   {

     GNUNET_break (0);

     goto cleanup;

   }

   sc->options = (enum GNUNET_FS_SearchOptions) options;

   sc->master_result_map = GNUNET_CONTAINER_multihashmap_create (16, GNUNET_NO);

   dn = get_serialization_file_name_in_dir (h,

                                            (NULL == sc->psearch_result)

                                            ? GNUNET_FS_SYNC_PATH_MASTER_SEARCH

                                            : GNUNET_FS_SYNC_PATH_CHILD_SEARCH,

                                            sc->serialization,

                                            "");

   if (NULL != dn)

   {

     if (GNUNET_YES == GNUNET_DISK_directory_test (dn, GNUNET_YES))

       GNUNET_DISK_directory_scan (dn, &deserialize_search_result, sc);

     GNUNET_free (dn);

   }

   if (('\0' == in_pause) &&

       (GNUNET_OK != GNUNET_FS_search_start_searching_ (sc)))

   {

     GNUNET_log (

       GNUNET_ERROR_TYPE_WARNING,

       _ ("Could not resume running search, will resume as paused search\n"));

   }

   signal_search_resume (sc);

   GNUNET_free (uris);

   return sc;

 cleanup:

   GNUNET_free (emsg);

   free_search_context (sc);

   GNUNET_free (uris);

   return NULL;

 }


 static int

 deserialize_search_file (void *cls, const char *filename)

 {

   struct GNUNET_FS_Handle *h = cls;

   char *set;

   char *emsg;

   struct GNUNET_BIO_ReadHandle *rh;

   struct GNUNET_FS_SearchContext *sc;

   struct stat buf;


   if (0 != stat (filename, &buf))

   {

     GNUNET_log_strerror_file (GNUNET_ERROR_TYPE_WARNING, "stat", filename);

     return GNUNET_OK;

   }

   if (S_ISDIR (buf.st_mode))

     return GNUNET_OK; /* skip directories */

   set = get_serialization_short_name (filename);

   rh = GNUNET_BIO_read_open_file (filename);

   if (NULL == rh)

   {

     if (NULL != set)

     {

       GNUNET_FS_remove_sync_file_ (h, GNUNET_FS_SYNC_PATH_MASTER_SEARCH, set);

       GNUNET_free (set);

     }

     return GNUNET_OK;

   }

   sc = deserialize_search (h, rh, NULL, set);

   if (NULL != sc)

     sc->top = GNUNET_FS_make_top (h, &GNUNET_FS_search_signal_suspend_, sc);

   GNUNET_free (set);

   if (GNUNET_OK != GNUNET_BIO_read_close (rh, &emsg))

   {

     GNUNET_log (GNUNET_ERROR_TYPE_WARNING,

                 _ ("Failure while resuming search operation `%s': %s\n"),

                 filename,

                 emsg);

     GNUNET_free (emsg);

   }

   return GNUNET_OK;

 }


 static int

 deserialize_download_file (void *cls, const char *filename)

 {

   struct GNUNET_FS_Handle *h = cls;

   char *set;

   char *emsg;

   struct GNUNET_BIO_ReadHandle *rh;


   set = get_serialization_short_name (filename);

   rh = GNUNET_BIO_read_open_file (filename);

   if (NULL == rh)

   {

     if (0 != unlink (filename))

       GNUNET_log_strerror_file (GNUNET_ERROR_TYPE_WARNING,

                                 "unlink",

                                 filename);

     GNUNET_free (set);

     return GNUNET_OK;

   }

   deserialize_download (h, rh, NULL, NULL, set);

   GNUNET_free (set);

   if (GNUNET_OK !=

       GNUNET_BIO_read_close (rh,

                              &emsg))

   {

     GNUNET_log (GNUNET_ERROR_TYPE_WARNING,

                 "Failure while resuming download operation `%s': %s\n",

                 filename,

                 emsg);

     GNUNET_free (emsg);

   }

   return GNUNET_OK;

 }


 static void

 deserialization_master (const char *master_path,

                         GNUNET_FileNameCallback proc,

                         struct GNUNET_FS_Handle *h)

 {

   char *dn;


   dn = get_serialization_file_name (h, master_path, "");

   if (NULL == dn)

     return;

   if (GNUNET_YES ==

       GNUNET_DISK_directory_test (dn,

                                   GNUNET_YES))

     GNUNET_DISK_directory_scan (dn,

                                 proc,

                                 h);

   GNUNET_free (dn);

 }


 struct GNUNET_FS_Handle *

 GNUNET_FS_start (const struct GNUNET_CONFIGURATION_Handle *cfg,

                  const char *client_name,

                  GNUNET_FS_ProgressCallback upcb,

                  void *upcb_cls,

                  enum GNUNET_FS_Flags flags,

                  ...)

 {

   struct GNUNET_FS_Handle *ret;

   enum GNUNET_FS_OPTIONS opt;

   va_list ap;


   ret = GNUNET_new (struct GNUNET_FS_Handle);

   ret->cfg = cfg;

   ret->client_name = GNUNET_strdup (client_name);

   ret->upcb = upcb;

   ret->upcb_cls = upcb_cls;

   ret->flags = flags;

   ret->max_parallel_downloads = DEFAULT_MAX_PARALLEL_DOWNLOADS;

   ret->max_parallel_requests = DEFAULT_MAX_PARALLEL_REQUESTS;

   ret->avg_block_latency =

     GNUNET_TIME_UNIT_MINUTES; /* conservative starting point */

   va_start (ap, flags);

   while (GNUNET_FS_OPTIONS_END !=

          (opt = GNUNET_VA_ARG_ENUM (ap, GNUNET_FS_OPTIONS)))

   {

     switch (opt)

     {

     case GNUNET_FS_OPTIONS_DOWNLOAD_PARALLELISM:

       ret->max_parallel_downloads = va_arg (ap, unsigned int);


       break;


     case GNUNET_FS_OPTIONS_REQUEST_PARALLELISM:

       ret->max_parallel_requests = va_arg (ap, unsigned int);


       break;


     default:

       GNUNET_break (0);

       GNUNET_free (ret->client_name);

       GNUNET_free (ret);

       va_end (ap);

       return NULL;

     }

   }

   va_end (ap);

   if (0 != (GNUNET_FS_FLAGS_PERSISTENCE & flags))

   {

     deserialization_master (GNUNET_FS_SYNC_PATH_MASTER_PUBLISH,

                             &deserialize_publish_file,

                             ret);

     deserialization_master (GNUNET_FS_SYNC_PATH_MASTER_SEARCH,

                             &deserialize_search_file,

                             ret);

     deserialization_master (GNUNET_FS_SYNC_PATH_MASTER_DOWNLOAD,

                             &deserialize_download_file,

                             ret);

     deserialization_master (GNUNET_FS_SYNC_PATH_MASTER_UNINDEX,

                             &deserialize_unindex_file,

                             ret);

   }

   return ret;

 }


 void

 GNUNET_FS_stop (struct GNUNET_FS_Handle *h)

 {

   while (NULL != h->top_head)

     h->top_head->ssf (h->top_head->ssf_cls);

   if (NULL != h->queue_job)

     GNUNET_SCHEDULER_cancel (h->queue_job);

   GNUNET_free (h->client_name);

   GNUNET_free (h);

 }


 /* end of fs_api.c */

options
struct GNUNET_GETOPT_CommandLineOption options[]
Definition: 002.c:5

HASHING_BLOCKSIZE
#define HASHING_BLOCKSIZE
Blocksize to use when hashing files for indexing (blocksize for IO, not for the DBlocks).
Definition: fs.h:48

DBLOCK_SIZE
#define DBLOCK_SIZE
Size of the individual blocks used for file-sharing.
Definition: fs.h:41

deserialize_download_file
static int deserialize_download_file(void *cls, const char *filename)
Function called with a filename of serialized download operation to deserialize.
Definition: fs_api.c:3182

remove_sync_file_in_dir
static void remove_sync_file_in_dir(struct GNUNET_FS_Handle *h, const char *ext, const char *uni, const char *ent)
Remove serialization/deserialization file from disk.
Definition: fs_api.c:758

GNUNET_FS_search_result_sync_
void GNUNET_FS_search_result_sync_(struct GNUNET_FS_SearchResult *sr)
Synchronize this search result with its mirror on disk.
Definition: fs_api.c:2149

DEFAULT_MAX_PARALLEL_REQUESTS
#define DEFAULT_MAX_PARALLEL_REQUESTS
How many block requests can we have outstanding in parallel at a time by default?
Definition: fs_api.c:37

deserialize_unindex_file
static int deserialize_unindex_file(void *cls, const char *filename)
Function called with a filename of serialized unindexing operation to deserialize.
Definition: fs_api.c:2312

make_serialization_file_name_in_dir
static char * make_serialization_file_name_in_dir(struct GNUNET_FS_Handle *h, const char *ext, const char *uni)
Create a new random name for serialization.
Definition: fs_api.c:1256

deserialize_fi_node
static struct GNUNET_FS_FileInformation * deserialize_fi_node(struct GNUNET_FS_Handle *h, const char *fn, struct GNUNET_BIO_ReadHandle *rh)
Using the given serialization filename, try to deserialize the file-information tree associated with ...
Definition: fs_api.c:882

copy_from_reader
static int copy_from_reader(struct GNUNET_BIO_WriteHandle *wh, struct GNUNET_FS_FileInformation *fi)
Copy all of the data from the reader to the write handle.
Definition: fs_api.c:1292

deserialize_file_information
static struct GNUNET_FS_FileInformation * deserialize_file_information(struct GNUNET_FS_Handle *h, const char *filename)
Using the given serialization filename, try to deserialize the file-information tree associated with ...
Definition: fs_api.c:1143

GNUNET_FS_unindex_sync_
void GNUNET_FS_unindex_sync_(struct GNUNET_FS_UnindexContext *uc)
Synchronize this unindex struct with its mirror on disk.
Definition: fs_api.c:1823

deserialize_search_file
static int deserialize_search_file(void *cls, const char *filename)
Function called with a filename of serialized search operation to deserialize.
Definition: fs_api.c:3130

GNUNET_FS_make_file_reader_context_
void * GNUNET_FS_make_file_reader_context_(const char *filename)
Create the closure for the GNUNET_FS_data_reader_file_() callback.
Definition: fs_api.c:509

GNUNET_FS_make_top
struct TopLevelActivity * GNUNET_FS_make_top(struct GNUNET_FS_Handle *h, SuspendSignalFunction ssf, void *ssf_cls)
Create a top-level activity entry.
Definition: fs_api.c:381

start_job
static void start_job(struct GNUNET_FS_QueueEntry *qe)
Start the given job (send signal, remove from pending queue, update counters and state).
Definition: fs_api.c:51

GNUNET_FS_search_sync_
void GNUNET_FS_search_sync_(struct GNUNET_FS_SearchContext *sc)
Synchronize this search struct with its mirror on disk.
Definition: fs_api.c:2248

get_write_handle_in_dir
static struct GNUNET_BIO_WriteHandle * get_write_handle_in_dir(struct GNUNET_FS_Handle *h, const char *ext, const char *uni, const char *ent)
Return a write handle for serialization.
Definition: fs_api.c:703

make_serialization_file_name
static char * make_serialization_file_name(struct GNUNET_FS_Handle *h, const char *ext)
Create a new random name for serialization.
Definition: fs_api.c:1220

deserialize_download
static void deserialize_download(struct GNUNET_FS_Handle *h, struct GNUNET_BIO_ReadHandle *rh, struct GNUNET_FS_DownloadContext *parent, struct GNUNET_FS_SearchResult *search, const char *serialization)
Deserialize a download.
Definition: fs_api.c:2909

fip_signal_resume
static int fip_signal_resume(void *cls, struct GNUNET_FS_FileInformation *fi, uint64_t length, struct GNUNET_FS_MetaData *meta, struct GNUNET_FS_Uri **uri, struct GNUNET_FS_BlockOptions *bo, int *do_index, void **client_info)
Signal the FS's progress function that we are resuming an upload.
Definition: fs_api.c:1572

get_read_handle
static struct GNUNET_BIO_ReadHandle * get_read_handle(struct GNUNET_FS_Handle *h, const char *ext, const char *ent)
Return a read handle for deserialization.
Definition: fs_api.c:655

stop_job
static void stop_job(struct GNUNET_FS_QueueEntry *qe)
Stop the given job (send signal, remove from active queue, update counters and state).
Definition: fs_api.c:78

signal_download_resume
static void signal_download_resume(struct GNUNET_FS_DownloadContext *dc)
Send the 'resume' signal to the callback; also actually resume the download (put it in the queue).
Definition: fs_api.c:2683

deserialization_master
static void deserialization_master(const char *master_path, GNUNET_FileNameCallback proc, struct GNUNET_FS_Handle *h)
Deserialize information about pending operations.
Definition: fs_api.c:3224

find_file_position
static struct GNUNET_FS_FileInformation * find_file_position(struct GNUNET_FS_FileInformation *pos, const char *srch)
Find the entry in the file information struct where the serialization filename matches the given name...
Definition: fs_api.c:1540

GNUNET_FS_data_reader_copy_
size_t GNUNET_FS_data_reader_copy_(void *cls, uint64_t offset, size_t max, void *buf, char **emsg)
Function that provides data by copying from a buffer.
Definition: fs_api.c:545

read_start_time
static int read_start_time(struct GNUNET_BIO_ReadHandle *rh, struct GNUNET_TIME_Absolute *timestamp)
Deserialize a start-time.
Definition: fs_api.c:845

write_download_request
static int write_download_request(struct GNUNET_BIO_WriteHandle *wh, struct DownloadRequest *dr)
Serialize a download request.
Definition: fs_api.c:1898

free_result
static int free_result(void *cls, const struct GNUNET_HashCode *key, void *value)
Iterator over search results freeing each.
Definition: fs_api.c:2773

GNUNET_FS_download_sync_
void GNUNET_FS_download_sync_(struct GNUNET_FS_DownloadContext *dc)
Synchronize this download struct with its mirror on disk.
Definition: fs_api.c:2036

deserialize_search
static struct GNUNET_FS_SearchContext * deserialize_search(struct GNUNET_FS_Handle *h, struct GNUNET_BIO_ReadHandle *rh, struct GNUNET_FS_SearchResult *psearch_result, const char *serialization)
Deserialize a search.
Definition: fs_api.c:3044

process_job_queue
static void process_job_queue(void *cls)
Process the jobs in the job queue, possibly starting some and stopping others.
Definition: fs_api.c:107

signal_search_resume
static void signal_search_resume(struct GNUNET_FS_SearchContext *sc)
Signal resuming of a search to our clients (for the top level search and all sub-searches).
Definition: fs_api.c:3020

GNUNET_FS_remove_sync_file_
void GNUNET_FS_remove_sync_file_(struct GNUNET_FS_Handle *h, const char *ext, const char *ent)
Remove serialization/deserialization file from disk.
Definition: fs_api.c:728

free_search_context
static void free_search_context(struct GNUNET_FS_SearchContext *sc)
Free memory allocated by the search context and its children.
Definition: fs_api.c:2795

DEFAULT_MAX_PARALLEL_DOWNLOADS
#define DEFAULT_MAX_PARALLEL_DOWNLOADS
How many downloads can we have outstanding in parallel at a time by default?
Definition: fs_api.c:42

get_serialization_file_name_in_dir
static char * get_serialization_file_name_in_dir(struct GNUNET_FS_Handle *h, const char *ext, const char *uni, const char *ent)
Return the full filename where we would store state information (for serialization/deserialization) t...
Definition: fs_api.c:615

read_download_request
static struct DownloadRequest * read_download_request(struct GNUNET_BIO_ReadHandle *rh)
Read a download request tree.
Definition: fs_api.c:1931

write_start_time
static int write_start_time(struct GNUNET_BIO_WriteHandle *wh, struct GNUNET_TIME_Absolute timestamp)
Serialize a start-time.
Definition: fs_api.c:820

get_serialization_file_name
static char * get_serialization_file_name(struct GNUNET_FS_Handle *h, const char *ext, const char *ent)
Return the full filename where we would store state information (for serialization/deserialization).
Definition: fs_api.c:575

deserialize_subdownload
static int deserialize_subdownload(void *cls, const char *filename)
Function called with a filename of serialized sub-download to deserialize.
Definition: fs_api.c:2834

get_write_handle
static struct GNUNET_BIO_WriteHandle * get_write_handle(struct GNUNET_FS_Handle *h, const char *ext, const char *ent)
Return a write handle for serialization.
Definition: fs_api.c:678

GNUNET_FS_remove_sync_dir_
void GNUNET_FS_remove_sync_dir_(struct GNUNET_FS_Handle *h, const char *ext, const char *uni)
Remove serialization/deserialization directory from disk.
Definition: fs_api.c:787

GNUNET_FS_file_information_sync_
void GNUNET_FS_file_information_sync_(struct GNUNET_FS_FileInformation *fi)
Create a temporary file on disk to store the current state of fi in.
Definition: fs_api.c:1328

GNUNET_FS_dequeue_
void GNUNET_FS_dequeue_(struct GNUNET_FS_QueueEntry *qe)
Dequeue a job from the queue.
Definition: fs_api.c:356

GNUNET_FS_queue_
struct GNUNET_FS_QueueEntry * GNUNET_FS_queue_(struct GNUNET_FS_Handle *h, GNUNET_SCHEDULER_TaskCallback start, GNUNET_SCHEDULER_TaskCallback stop, void *cls, unsigned int blocks, enum GNUNET_FS_QueuePriority priority)
Add a job to the queue.
Definition: fs_api.c:321

deserialize_search_result
static int deserialize_search_result(void *cls, const char *filename)
Function called with a filename of serialized search result to deserialize.
Definition: fs_api.c:2519

signal_result_resume
static int signal_result_resume(void *cls, const struct GNUNET_HashCode *key, void *value)
Iterator over search results signaling resume to the client for each result.
Definition: fs_api.c:2721

free_download_context
static void free_download_context(struct GNUNET_FS_DownloadContext *dc)
Free this download context and all of its descendants.
Definition: fs_api.c:2875

GNUNET_FS_data_reader_file_
size_t GNUNET_FS_data_reader_file_(void *cls, uint64_t offset, size_t max, void *buf, char **emsg)
Function that provides data by reading from a file.
Definition: fs_api.c:447

get_download_sync_filename
static char * get_download_sync_filename(struct GNUNET_FS_DownloadContext *dc, const char *uni, const char *ext)
Compute the name of the sync file (or directory) for the given download context.
Definition: fs_api.c:2003

get_serialization_short_name
static char * get_serialization_short_name(const char *fullname)
Given a serialization name (full absolute path), return the basename of the file (without the path),...
Definition: fs_api.c:1186

GNUNET_FS_end_top
void GNUNET_FS_end_top(struct GNUNET_FS_Handle *h, struct TopLevelActivity *top)
Destroy a top-level activity entry.
Definition: fs_api.c:402

GNUNET_FS_publish_sync_
void GNUNET_FS_publish_sync_(struct GNUNET_FS_PublishContext *pc)
Synchronize this publishing struct with its mirror on disk.
Definition: fs_api.c:1747

deserialize_publish_file
static int deserialize_publish_file(void *cls, const char *filename)
Function called with a filename of serialized publishing operation to deserialize.
Definition: fs_api.c:1612

fs_api.h
shared definitions for the FS library

BRS_DOWNLOAD_UP
@ BRS_DOWNLOAD_UP
This block and all of its children have been downloaded successfully (full completion propagates up).
Definition: fs_api.h:1661

BRS_RECONSTRUCT_META_UP
@ BRS_RECONSTRUCT_META_UP
We've calculated the CHK bottom-up based on the meta data.
Definition: fs_api.h:1629

BRS_CHK_SET
@ BRS_CHK_SET
We've determined the real, desired CHK for this block (full tree reconstruction failed),...
Definition: fs_api.h:1646

BRS_ERROR
@ BRS_ERROR
We got a block back that matched the query but did not hash to the key (malicious publisher or hash c...
Definition: fs_api.h:1668

BRS_RECONSTRUCT_DOWN
@ BRS_RECONSTRUCT_DOWN
We've checked the block on the path down the tree, and the content on disk did match the desired CHK,...
Definition: fs_api.h:1621

BRS_INIT
@ BRS_INIT
Initial state, block has only been allocated (since it is relevant to the overall download request).
Definition: fs_api.h:1613

BRS_DOWNLOAD_DOWN
@ BRS_DOWNLOAD_DOWN
We've successfully downloaded this block, but the children still need to be either downloaded or veri...
Definition: fs_api.h:1655

BRS_RECONSTRUCT_UP
@ BRS_RECONSTRUCT_UP
We've calculated the CHK bottom-up based on what we have on disk, which may not be what the desired C...
Definition: fs_api.h:1637

GNUNET_FS_download_signal_suspend_
void GNUNET_FS_download_signal_suspend_(void *cls)
Create SUSPEND event for the given download operation and then clean up our state (without stop signa...
Definition: fs_download.c:1953

UnindexState
UnindexState
Phases of unindex processing (state machine).
Definition: fs_api.h:1307

UNINDEX_STATE_EXTRACT_KEYWORDS
@ UNINDEX_STATE_EXTRACT_KEYWORDS
Find out which keywords apply.
Definition: fs_api.h:1322

UNINDEX_STATE_COMPLETE
@ UNINDEX_STATE_COMPLETE
We're done.
Definition: fs_api.h:1338

UNINDEX_STATE_DS_REMOVE
@ UNINDEX_STATE_DS_REMOVE
We're telling the datastore to delete the respective DBlocks and IBlocks.
Definition: fs_api.h:1317

UNINDEX_STATE_HASHING
@ UNINDEX_STATE_HASHING
We're currently hashing the file.
Definition: fs_api.h:1311

UNINDEX_STATE_ERROR
@ UNINDEX_STATE_ERROR
We've encountered a fatal error.
Definition: fs_api.h:1343

UNINDEX_STATE_FS_NOTIFY
@ UNINDEX_STATE_FS_NOTIFY
We're notifying the FS service about the unindexing.
Definition: fs_api.h:1333

UNINDEX_STATE_DS_REMOVE_KBLOCKS
@ UNINDEX_STATE_DS_REMOVE_KBLOCKS
We're telling the datastore to remove KBlocks.
Definition: fs_api.h:1327

GNUNET_FS_URI_KSK
@ GNUNET_FS_URI_KSK
Keyword search key (query with keywords).
Definition: fs_api.h:154

GNUNET_FS_SYNC_PATH_MASTER_DOWNLOAD
#define GNUNET_FS_SYNC_PATH_MASTER_DOWNLOAD
Name of the directory with master downloads (not associated with search or part of another download).
Definition: fs_api.h:66

GNUNET_FS_unindex_do_remove_kblocks_
void GNUNET_FS_unindex_do_remove_kblocks_(struct GNUNET_FS_UnindexContext *uc)
If necessary, connect to the datastore and remove the KBlocks.
Definition: fs_unindex.c:581

GNUNET_FS_search_make_status_
void * GNUNET_FS_search_make_status_(struct GNUNET_FS_ProgressInfo *pi, struct GNUNET_FS_Handle *h, struct GNUNET_FS_SearchContext *sc)
Fill in all of the generic fields for a search event and call the callback.
Definition: fs_search.c:49

GNUNET_FS_free_download_request_
void GNUNET_FS_free_download_request_(struct DownloadRequest *dr)
(recursively) free download request structure
Definition: fs_download.c:997

GNUNET_FS_SYNC_PATH_MASTER_SEARCH
#define GNUNET_FS_SYNC_PATH_MASTER_SEARCH
Name of the directory with top-level searches.
Definition: fs_api.h:55

GNUNET_FS_publish_signal_suspend_
void GNUNET_FS_publish_signal_suspend_(void *cls)
Create SUSPEND event for the given publish operation and then clean up our state (without stop signal...
Definition: fs_publish.c:1355

GNUNET_FS_SYNC_PATH_MASTER_UNINDEX
#define GNUNET_FS_SYNC_PATH_MASTER_UNINDEX
Name of the directory with unindex operations.
Definition: fs_api.h:87

GNUNET_FS_SYNC_PATH_MASTER_PUBLISH
#define GNUNET_FS_SYNC_PATH_MASTER_PUBLISH
Name of the directory with publishing operations.
Definition: fs_api.h:77

CHK_PER_INODE
#define CHK_PER_INODE
Pick a multiple of 2 here to achieve 8-byte alignment! We also probably want DBlocks to have (roughly...
Definition: fs_api.h:44

GNUNET_FS_unindex_make_status_
void GNUNET_FS_unindex_make_status_(struct GNUNET_FS_ProgressInfo *pi, struct GNUNET_FS_UnindexContext *uc, uint64_t offset)
Fill in all of the generic fields for an unindex event and call the callback.
Definition: fs_unindex.c:85

GNUNET_FS_download_make_status_
void GNUNET_FS_download_make_status_(struct GNUNET_FS_ProgressInfo *pi, struct GNUNET_FS_DownloadContext *dc)
Fill in all of the generic fields for a download event and call the callback.
Definition: fs_download.c:104

GNUNET_FS_download_start_task_
void GNUNET_FS_download_start_task_(void *cls)
Task that creates the initial (top-level) download request for the file.
Definition: fs_download.c:1800

GNUNET_FS_SYNC_PATH_CHILD_SEARCH
#define GNUNET_FS_SYNC_PATH_CHILD_SEARCH
Name of the directory with sub-searches (namespace-updates).
Definition: fs_api.h:60

GNUNET_FS_unindex_do_extract_keywords_
void GNUNET_FS_unindex_do_extract_keywords_(struct GNUNET_FS_UnindexContext *uc)
Extract the keywords for KBlock removal.
Definition: fs_unindex.c:407

GNUNET_FS_unindex_do_remove_
void GNUNET_FS_unindex_do_remove_(struct GNUNET_FS_UnindexContext *uc)
Connect to the datastore and remove the blocks.
Definition: fs_unindex.c:650

GNUNET_FS_search_start_probe_
void GNUNET_FS_search_start_probe_(struct GNUNET_FS_SearchResult *sr)
Start download probes for the given search result.
Definition: fs_search.c:431

GNUNET_FS_QueuePriority
GNUNET_FS_QueuePriority
Priorities for the queue.
Definition: fs_api.h:404

GNUNET_FS_QUEUE_PRIORITY_NORMAL
@ GNUNET_FS_QUEUE_PRIORITY_NORMAL
Default priority.
Definition: fs_api.h:413

GNUNET_FS_QUEUE_PRIORITY_PROBE
@ GNUNET_FS_QUEUE_PRIORITY_PROBE
This is a probe (low priority).
Definition: fs_api.h:408

SuspendSignalFunction
void(* SuspendSignalFunction)(void *cls)
Function signature of the functions that can be called to trigger suspend signals and clean-up for to...
Definition: fs_api.h:1011

GNUNET_FS_unindex_signal_suspend_
void GNUNET_FS_unindex_signal_suspend_(void *cls)
Create SUSPEND event for the given unindex operation and then clean up our state (without stop signal...
Definition: fs_unindex.c:728

GNUNET_FS_search_start_searching_
int GNUNET_FS_search_start_searching_(struct GNUNET_FS_SearchContext *sc)
Build the request and actually initiate the search using the GNUnet FS service.
Definition: fs_search.c:1402

GNUNET_FS_publish_make_status_
void * GNUNET_FS_publish_make_status_(struct GNUNET_FS_ProgressInfo *pi, struct GNUNET_FS_PublishContext *pc, const struct GNUNET_FS_FileInformation *p, uint64_t offset)
Fill in all of the generic fields for a publish event and call the callback.
Definition: fs_publish.c:48

GNUNET_FS_unindex_process_hash_
void GNUNET_FS_unindex_process_hash_(void *cls, const struct GNUNET_HashCode *file_id)
Function called once the hash of the file that is being unindexed has been computed.
Definition: fs_unindex.c:695

GNUNET_FS_SYNC_PATH_CHILD_DOWNLOAD
#define GNUNET_FS_SYNC_PATH_CHILD_DOWNLOAD
Name of the directory with downloads that are part of another download or a search.
Definition: fs_api.h:72

GNUNET_FS_publish_main_
void GNUNET_FS_publish_main_(void *cls)
Main function that performs the upload.
Definition: fs_publish.c:1063

GNUNET_FS_SYNC_PATH_FILE_INFO
#define GNUNET_FS_SYNC_PATH_FILE_INFO
Name of the directory with files that are being published.
Definition: fs_api.h:82

GNUNET_FS_search_signal_suspend_
void GNUNET_FS_search_signal_suspend_(void *cls)
Create SUSPEND event for the given search operation and then clean up our state (without stop signal)...
Definition: fs_search.c:1555

GNUNET_FS_compute_depth
unsigned int GNUNET_FS_compute_depth(uint64_t flen)
Compute the depth of the CHK tree.
Definition: fs_tree.c:125

fs_tree.h
Merkle-tree-ish-CHK file encoding for GNUnet.

cfg
static const struct GNUNET_CONFIGURATION_Handle * cfg
Configuration we are using.
Definition: gnunet-abd.c:36

ret
static int ret
Return value of the commandline.
Definition: gnunet-abd.c:81

ns
static struct GNUNET_NAMESTORE_Handle * ns
Handle to the namestore.
Definition: gnunet-abd.c:41

h
static struct GNUNET_ARM_Handle * h
Connection with ARM.
Definition: gnunet-arm.c:99

start
static int start
Set if we are to start default services (including ARM).
Definition: gnunet-arm.c:39

dir
static char * dir
Set to the directory where runtime files are stored.
Definition: gnunet-arm.c:89

end
static int end
Set if we are to shutdown all services (including ARM).
Definition: gnunet-arm.c:34

cleanup
static void cleanup(void *cls)
Function scheduled as very last function, cleans up after us.
Definition: gnunet-daemon-exit.c:3245

end_time
static struct GNUNET_TIME_Absolute end_time
At what time MUST the current hostlist request be done?
Definition: gnunet-daemon-hostlist_client.c:231

pi
static struct GNUNET_PEERINFO_Handle * pi
Handle to peerinfo service.
Definition: gnunet-daemon-hostlist_client.c:311

qe
static struct GNUNET_DATASTORE_QueueEntry * qe
Current operation.
Definition: gnunet-datastore.c:116

key
struct GNUNET_HashCode key
The key used in the DHT.
Definition: gnunet-dht-put.c:37

dc
static struct GNUNET_FS_DownloadContext * dc
Definition: gnunet-download.c:42

filename
static char * filename
Definition: gnunet-download.c:52

data
uint32_t data
The data value.
Definition: gnunet-helper-transport-wlan.c:21

status
uint16_t status
See PRISM_STATUS_*-constants.
Definition: gnunet-helper-transport-wlan.c:9

value
static char * value
Value of the record to add/remove.
Definition: gnunet-namestore.c:265

uri
static struct GNUNET_FS_Uri * uri
Value of URI provided on command-line (when not publishing a file but just creating UBlocks to refer ...
Definition: gnunet-publish.c:84

meta
static struct GNUNET_FS_MetaData * meta
Meta-data provided via command-line option.
Definition: gnunet-publish.c:61

bo
static struct GNUNET_FS_BlockOptions bo
Options we set for published blocks.
Definition: gnunet-publish.c:71

pc
static struct GNUNET_FS_PublishContext * pc
Handle to FS-publishing operation.
Definition: gnunet-publish.c:56

state
enum State state
current state of profiling
Definition: gnunet-regex-profiler.c:245

sc
static struct GNUNET_FS_SearchContext * sc
Definition: gnunet-search.c:87

wh
static struct GNUNET_TESTBED_BarrierWaitHandle * wh
Our barrier wait handle.
Definition: gnunet-service-test-barriers.c:42

buf
static char buf[2048]
Definition: gnunet-service-testbed_meminfo.c:64

uc
static struct GNUNET_FS_UnindexContext * uc
Definition: gnunet-unindex.c:40

gnunet_fs_service.h
API for file sharing via GNUnet.

gnunet_util_lib.h

GNUNET_BIO_read_spec_string
struct GNUNET_BIO_ReadSpec GNUNET_BIO_read_spec_string(const char *what, char **result, size_t max_length)
Create the specification to read a 0-terminated string.
Definition: bio.c:956

GNUNET_BIO_read_string
int GNUNET_BIO_read_string(struct GNUNET_BIO_ReadHandle *h, const char *what, char **result, size_t max_length)
Read 0-terminated string.
Definition: bio.c:330

GNUNET_BIO_write_spec_commit
int GNUNET_BIO_write_spec_commit(struct GNUNET_BIO_WriteHandle *h, struct GNUNET_BIO_WriteSpec *ws)
Execute the write specifications in order.
Definition: bio.c:1359

GNUNET_BIO_read_int32
int GNUNET_BIO_read_int32(struct GNUNET_BIO_ReadHandle *h, const char *what, int32_t *i)
Read an (u)int32_t.
Definition: bio.c:427

GNUNET_BIO_read_open_file
struct GNUNET_BIO_ReadHandle * GNUNET_BIO_read_open_file(const char *fn)
Open a file for reading.
Definition: bio.c:114

GNUNET_BIO_write
int GNUNET_BIO_write(struct GNUNET_BIO_WriteHandle *h, const char *what, const void *buffer, size_t n)
Write a buffer to a handle.
Definition: bio.c:752

GNUNET_BIO_read_int64
int GNUNET_BIO_read_int64(struct GNUNET_BIO_ReadHandle *h, const char *what, int64_t *i)
Read an (u)int64_t.
Definition: bio.c:449

GNUNET_BIO_write_string
int GNUNET_BIO_write_string(struct GNUNET_BIO_WriteHandle *h, const char *what, const char *s)
Write a 0-terminated string.
Definition: bio.c:789

GNUNET_BIO_write_close
int GNUNET_BIO_write_close(struct GNUNET_BIO_WriteHandle *h, char **emsg)
Close an IO handle.
Definition: bio.c:556

GNUNET_BIO_write_int32
int GNUNET_BIO_write_int32(struct GNUNET_BIO_WriteHandle *h, const char *what, int32_t i)
Write an (u)int32_t.
Definition: bio.c:847

GNUNET_BIO_write_spec_string
struct GNUNET_BIO_WriteSpec GNUNET_BIO_write_spec_string(const char *what, const char *s)
Create the specification to write a 0-terminated string.
Definition: bio.c:1201

GNUNET_BIO_read_spec_end
#define GNUNET_BIO_read_spec_end()
End of specifications marker.
Definition: gnunet_bio_lib.h:406

GNUNET_BIO_read_spec_commit
int GNUNET_BIO_read_spec_commit(struct GNUNET_BIO_ReadHandle *h, struct GNUNET_BIO_ReadSpec *rs)
Execute the read specifications in order.
Definition: bio.c:1108

GNUNET_BIO_read_spec_int32
struct GNUNET_BIO_ReadSpec GNUNET_BIO_read_spec_int32(const char *what, int32_t *i)
Create the specification to read an (u)int32_t.
Definition: bio.c:1001

GNUNET_BIO_write_spec_end
#define GNUNET_BIO_write_spec_end()
End of specifications marker.
Definition: gnunet_bio_lib.h:554

GNUNET_BIO_read_close
int GNUNET_BIO_read_close(struct GNUNET_BIO_ReadHandle *h, char **emsg)
Close an open handle.
Definition: bio.c:162

GNUNET_BIO_write_int64
int GNUNET_BIO_write_int64(struct GNUNET_BIO_WriteHandle *h, const char *what, int64_t i)
Write an (u)int64_t.
Definition: bio.c:867

GNUNET_BIO_read
int GNUNET_BIO_read(struct GNUNET_BIO_ReadHandle *h, const char *what, void *result, size_t len)
Read some contents into a buffer.
Definition: bio.c:291

GNUNET_BIO_write_spec_object
struct GNUNET_BIO_WriteSpec GNUNET_BIO_write_spec_object(const char *what, void *source, size_t size)
Create the specification to read some bytes.
Definition: bio.c:1154

GNUNET_BIO_write_open_file
struct GNUNET_BIO_WriteHandle * GNUNET_BIO_write_open_file(const char *fn)
Open a file for writing.
Definition: bio.c:508

GNUNET_BIO_write_spec_int32
struct GNUNET_BIO_WriteSpec GNUNET_BIO_write_spec_int32(const char *what, int32_t *i)
Create the specification to write an (u)int32_t.
Definition: bio.c:1246

GNUNET_BIO_read_spec_int64
struct GNUNET_BIO_ReadSpec GNUNET_BIO_read_spec_int64(const char *what, int64_t *i)
Create the specification to read an (u)int64_t.
Definition: bio.c:1045

GNUNET_BIO_write_spec_int64
struct GNUNET_BIO_WriteSpec GNUNET_BIO_write_spec_int64(const char *what, int64_t *i)
Create the specification to write an (u)int64_t.
Definition: bio.c:1291

GNUNET_CONFIGURATION_get_value_filename
enum GNUNET_GenericReturnValue GNUNET_CONFIGURATION_get_value_filename(const struct GNUNET_CONFIGURATION_Handle *cfg, const char *section, const char *option, char **value)
Get a configuration value that should be the name of a file or directory.
Definition: configuration.c:2016

GNUNET_DATASTORE_connect
struct GNUNET_DATASTORE_Handle * GNUNET_DATASTORE_connect(const struct GNUNET_CONFIGURATION_Handle *cfg)
Connect to the datastore service.
Definition: datastore_api.c:371

GNUNET_DISK_file_open
struct GNUNET_DISK_FileHandle * GNUNET_DISK_file_open(const char *fn, enum GNUNET_DISK_OpenFlags flags, enum GNUNET_DISK_AccessPermissions perm)
Open a file.
Definition: disk.c:1237

GNUNET_DISK_mktemp
char * GNUNET_DISK_mktemp(const char *t)
Create an (empty) temporary file on disk.
Definition: disk.c:380

GNUNET_DISK_file_seek
off_t GNUNET_DISK_file_seek(const struct GNUNET_DISK_FileHandle *h, off_t offset, enum GNUNET_DISK_Seek whence)
Move the read/write pointer in a file.
Definition: disk.c:205

GNUNET_DISK_directory_remove
enum GNUNET_GenericReturnValue GNUNET_DISK_directory_remove(const char *filename)
Remove all files in a directory (rm -rf).
Definition: disk.c:1087

GNUNET_DISK_directory_test
enum GNUNET_GenericReturnValue GNUNET_DISK_directory_test(const char *fil, int is_readable)
Test if fil is a directory and listable.
Definition: disk.c:403

GNUNET_DISK_file_close
enum GNUNET_GenericReturnValue GNUNET_DISK_file_close(struct GNUNET_DISK_FileHandle *h)
Close an open file.
Definition: disk.c:1308

GNUNET_DISK_directory_create_for_file
enum GNUNET_GenericReturnValue GNUNET_DISK_directory_create_for_file(const char *filename)
Create the directory structure for storing a file.
Definition: disk.c:582

GNUNET_DISK_file_read
ssize_t GNUNET_DISK_file_read(const struct GNUNET_DISK_FileHandle *h, void *result, size_t len)
Read the contents of a binary file into a buffer.
Definition: disk.c:622

GNUNET_DISK_directory_scan
int GNUNET_DISK_directory_scan(const char *dir_name, GNUNET_FileNameCallback callback, void *callback_cls)
Scan a directory for files.
Definition: disk.c:814

GNUNET_DISK_OPEN_READ
@ GNUNET_DISK_OPEN_READ
Open the file for reading.
Definition: gnunet_disk_lib.h:106

GNUNET_DISK_PERM_NONE
@ GNUNET_DISK_PERM_NONE
Nobody is allowed to do anything to the file.
Definition: gnunet_disk_lib.h:169

GNUNET_DISK_SEEK_SET
@ GNUNET_DISK_SEEK_SET
Seek an absolute position (from the start of the file).
Definition: gnunet_disk_lib.h:227

GNUNET_CONTAINER_DLL_remove
#define GNUNET_CONTAINER_DLL_remove(head, tail, element)
Remove an element from a DLL.
Definition: gnunet_container_lib.h:1915

GNUNET_CONTAINER_DLL_insert_after
#define GNUNET_CONTAINER_DLL_insert_after(head, tail, other, element)
Insert an element into a DLL after the given other element.
Definition: gnunet_container_lib.h:1845

GNUNET_CONTAINER_DLL_insert
#define GNUNET_CONTAINER_DLL_insert(head, tail, element)
Insert an element at the head of a DLL.
Definition: gnunet_container_lib.h:1796

GNUNET_FS_Flags
GNUNET_FS_Flags
General (global) option flags for file-sharing.
Definition: gnunet_fs_service.h:1667

GNUNET_FS_SearchOptions
GNUNET_FS_SearchOptions
Options for searching.
Definition: gnunet_fs_service.h:2331

GNUNET_FS_uri_parse
struct GNUNET_FS_Uri * GNUNET_FS_uri_parse(const char *uri, char **emsg)
Convert a UTF-8 String to a URI.
Definition: fs_uri.c:637

GNUNET_FS_DownloadOptions
GNUNET_FS_DownloadOptions
Options for downloading.
Definition: gnunet_fs_service.h:2422

GNUNET_FS_ProgressCallback
void *(* GNUNET_FS_ProgressCallback)(void *cls, const struct GNUNET_FS_ProgressInfo *info)
Notification of FS to a client about the progress of an operation.
Definition: gnunet_fs_service.h:1659

GNUNET_FS_uri_chk_get_file_size
uint64_t GNUNET_FS_uri_chk_get_file_size(const struct GNUNET_FS_Uri *uri)
What is the size of the file that this URI refers to?
Definition: fs_uri.c:1360

GNUNET_FS_uri_test_ksk
int GNUNET_FS_uri_test_ksk(const struct GNUNET_FS_Uri *uri)
Is this a keyword URI?
Definition: fs_uri.c:1324

GNUNET_FS_OPTIONS
GNUNET_FS_OPTIONS
Options specified in the VARARGs portion of GNUNET_FS_start.
Definition: gnunet_fs_service.h:1692

GNUNET_FS_file_information_inspect
void GNUNET_FS_file_information_inspect(struct GNUNET_FS_FileInformation *dir, GNUNET_FS_FileInformationProcessor proc, void *proc_cls)
Inspect a file or directory in a publish-structure.
Definition: fs_file_information.c:282

GNUNET_FS_read_meta_data
int GNUNET_FS_read_meta_data(struct GNUNET_BIO_ReadHandle *h, const char *what, struct GNUNET_FS_MetaData **result)
Read a metadata container.
Definition: meta_data.c:1054

GNUNET_FS_uri_test_loc
int GNUNET_FS_uri_test_loc(const struct GNUNET_FS_Uri *uri)
Is this a location URI?
Definition: fs_uri.c:1384

GNUNET_FS_uri_to_string
char * GNUNET_FS_uri_to_string(const struct GNUNET_FS_Uri *uri)
Convert a URI to a UTF-8 String.
Definition: fs_uri.c:2017

GNUNET_FS_uri_destroy
void GNUNET_FS_uri_destroy(struct GNUNET_FS_Uri *uri)
Free URI.
Definition: fs_uri.c:677

GNUNET_FS_uri_test_sks
int GNUNET_FS_uri_test_sks(const struct GNUNET_FS_Uri *uri)
Is this a namespace URI?
Definition: fs_uri.c:1271

GNUNET_FS_start
struct GNUNET_FS_Handle * GNUNET_FS_start(const struct GNUNET_CONFIGURATION_Handle *cfg, const char *client_name, GNUNET_FS_ProgressCallback upcb, void *upcb_cls, enum GNUNET_FS_Flags flags,...)
Setup a connection to the file-sharing service.
Definition: fs_api.c:3244

GNUNET_FS_meta_data_test_for_directory
int GNUNET_FS_meta_data_test_for_directory(const struct GNUNET_FS_MetaData *md)
Does the meta-data claim that this is a directory? Checks if the mime-type is that of a GNUnet direct...
Definition: fs_directory.c:55

GNUNET_FS_uri_test_chk
int GNUNET_FS_uri_test_chk(const struct GNUNET_FS_Uri *uri)
Is this a file (or directory) URI?
Definition: fs_uri.c:1346

GNUNET_FS_stop
void GNUNET_FS_stop(struct GNUNET_FS_Handle *h)
Close our connection with the file-sharing service.
Definition: fs_api.c:3310

GNUNET_FS_read_spec_meta_data
struct GNUNET_BIO_ReadSpec GNUNET_FS_read_spec_meta_data(const char *what, struct GNUNET_FS_MetaData **result)
Create the specification to read a metadata container.
Definition: meta_data.c:1180

GNUNET_FS_write_spec_meta_data
struct GNUNET_BIO_WriteSpec GNUNET_FS_write_spec_meta_data(const char *what, const struct GNUNET_FS_MetaData *m)
Create the specification to write a metadata container.
Definition: meta_data.c:1217

GNUNET_FS_file_information_destroy
void GNUNET_FS_file_information_destroy(struct GNUNET_FS_FileInformation *fi, GNUNET_FS_FileInformationProcessor cleaner, void *cleaner_cls)
Destroy publish-structure.
Definition: fs_file_information.c:335

GNUNET_FS_uri_loc_get_peer_identity
int GNUNET_FS_uri_loc_get_peer_identity(const struct GNUNET_FS_Uri *uri, struct GNUNET_PeerIdentity *peer)
Obtain the identity of the peer offering the data.
Definition: fs_uri.c:812

GNUNET_FS_FLAGS_PERSISTENCE
@ GNUNET_FS_FLAGS_PERSISTENCE
Is persistence of operations desired? (will create SUSPEND/RESUME events).
Definition: gnunet_fs_service.h:1677

GNUNET_FS_DOWNLOAD_IS_PROBE
@ GNUNET_FS_DOWNLOAD_IS_PROBE
Internal option used to flag this download as a 'probe' for a search result.
Definition: gnunet_fs_service.h:2452

GNUNET_FS_OPTIONS_DOWNLOAD_PARALLELISM
@ GNUNET_FS_OPTIONS_DOWNLOAD_PARALLELISM
Select the desired amount of parallelism (this option should be followed by an "unsigned int" giving ...
Definition: gnunet_fs_service.h:1703

GNUNET_FS_OPTIONS_END
@ GNUNET_FS_OPTIONS_END
Last option in the VARARG list.
Definition: gnunet_fs_service.h:1696

GNUNET_FS_OPTIONS_REQUEST_PARALLELISM
@ GNUNET_FS_OPTIONS_REQUEST_PARALLELISM
Maximum number of requests that should be pending at a given point in time (invidivual downloads may ...
Definition: gnunet_fs_service.h:1711

GNUNET_FS_STATUS_UNINDEX_RESUME
@ GNUNET_FS_STATUS_UNINDEX_RESUME
Notification that we resumed unindexing of a file.
Definition: gnunet_fs_service.h:804

GNUNET_FS_STATUS_DOWNLOAD_RESUME
@ GNUNET_FS_STATUS_DOWNLOAD_RESUME
Notification that this download is being resumed.
Definition: gnunet_fs_service.h:669

GNUNET_FS_STATUS_SEARCH_RESUME
@ GNUNET_FS_STATUS_SEARCH_RESUME
Last event when a search is being resumed; note that "GNUNET_FS_SEARCH_START" will not be generated i...
Definition: gnunet_fs_service.h:731

GNUNET_FS_STATUS_SEARCH_RESUME_RESULT
@ GNUNET_FS_STATUS_SEARCH_RESUME_RESULT
Event generated for each search result when the respective search is resumed.
Definition: gnunet_fs_service.h:737

GNUNET_FS_STATUS_PUBLISH_RESUME
@ GNUNET_FS_STATUS_PUBLISH_RESUME
Notification that we have resumed sharing a file structure.
Definition: gnunet_fs_service.h:628

GNUNET_FS_PUBLISH_OPTION_SIMULATE_ONLY
@ GNUNET_FS_PUBLISH_OPTION_SIMULATE_ONLY
Simulate publishing.
Definition: gnunet_fs_service.h:2079

GNUNET_CRYPTO_hash_file
struct GNUNET_CRYPTO_FileHashContext * GNUNET_CRYPTO_hash_file(enum GNUNET_SCHEDULER_Priority priority, const char *filename, size_t blocksize, GNUNET_CRYPTO_HashCompletedCallback callback, void *callback_cls)
Compute the hash of an entire file.
Definition: crypto_hash_file.c:169

GNUNET_CONTAINER_multihashmap_iterate
int GNUNET_CONTAINER_multihashmap_iterate(struct GNUNET_CONTAINER_MultiHashMap *map, GNUNET_CONTAINER_MultiHashMapIteratorCallback it, void *it_cls)
Iterate over all entries in the map.
Definition: container_multihashmap.c:309

GNUNET_CONTAINER_multihashmap_put
enum GNUNET_GenericReturnValue GNUNET_CONTAINER_multihashmap_put(struct GNUNET_CONTAINER_MultiHashMap *map, const struct GNUNET_HashCode *key, void *value, enum GNUNET_CONTAINER_MultiHashMapOption opt)
Store a key-value pair in the map.
Definition: container_multihashmap.c:710

GNUNET_CONTAINER_multihashmap_create
struct GNUNET_CONTAINER_MultiHashMap * GNUNET_CONTAINER_multihashmap_create(unsigned int len, int do_not_copy_keys)
Create a multi hash map.
Definition: container_multihashmap.c:180

GNUNET_CONTAINER_multihashmap_destroy
void GNUNET_CONTAINER_multihashmap_destroy(struct GNUNET_CONTAINER_MultiHashMap *map)
Destroy a hash map.
Definition: container_multihashmap.c:215

GNUNET_CONTAINER_MULTIHASHMAPOPTION_MULTIPLE
@ GNUNET_CONTAINER_MULTIHASHMAPOPTION_MULTIPLE
Allow multiple values with the same key.
Definition: gnunet_container_lib.h:370

GNUNET_FileNameCallback
enum GNUNET_GenericReturnValue(* GNUNET_FileNameCallback)(void *cls, const char *filename)
Function called with a filename.
Definition: gnunet_common.h:395

GNUNET_log
#define GNUNET_log(kind,...)
Definition: gnunet_common.h:568

GNUNET_VA_ARG_ENUM
#define GNUNET_VA_ARG_ENUM(va, X)
wrap va_arg for enums
Definition: gnunet_common.h:151

GNUNET_memcpy
#define GNUNET_memcpy(dst, src, n)
Call memcpy() but check for n being 0 first.
Definition: gnunet_common.h:1294

GNUNET_MIN
#define GNUNET_MIN(a, b)
Definition: gnunet_common.h:115

GNUNET_SCHEDULER_PRIORITY_IDLE
@ GNUNET_SCHEDULER_PRIORITY_IDLE
Run when otherwise idle.
Definition: gnunet_common.h:1816

GNUNET_SCHEDULER_PRIORITY_BACKGROUND
@ GNUNET_SCHEDULER_PRIORITY_BACKGROUND
Run as background job (higher than idle, lower than default).
Definition: gnunet_common.h:1822

GNUNET_OK
@ GNUNET_OK
Definition: gnunet_common.h:109

GNUNET_YES
@ GNUNET_YES
Definition: gnunet_common.h:111

GNUNET_NO
@ GNUNET_NO
Definition: gnunet_common.h:108

GNUNET_SYSERR
@ GNUNET_SYSERR
Definition: gnunet_common.h:107

GNUNET_assert
#define GNUNET_assert(cond)
Use this for fatal errors that cannot be handled.
Definition: gnunet_common.h:943

GNUNET_break
#define GNUNET_break(cond)
Use this for internal assertion violations that are not fatal (can be handled) but should not occur.
Definition: gnunet_common.h:1024

GNUNET_log_strerror_file
#define GNUNET_log_strerror_file(level, cmd, filename)
Log an error message at log-level 'level' that indicates a failure of the command 'cmd' with the mess...
Definition: gnunet_common.h:1102

GNUNET_ERROR_TYPE_WARNING
@ GNUNET_ERROR_TYPE_WARNING
Definition: gnunet_common.h:438

GNUNET_ERROR_TYPE_DEBUG
@ GNUNET_ERROR_TYPE_DEBUG
Definition: gnunet_common.h:444

GNUNET_asprintf
int int GNUNET_asprintf(char **buf, const char *format,...) __attribute__((format(printf
Like asprintf, just portable.

GNUNET_strdup
#define GNUNET_strdup(a)
Wrapper around GNUNET_xstrdup_.
Definition: gnunet_common.h:1426

GNUNET_malloc_large
#define GNUNET_malloc_large(size)
Wrapper around malloc.
Definition: gnunet_common.h:1372

GNUNET_new
#define GNUNET_new(type)
Allocate a struct or union of the given type.
Definition: gnunet_common.h:1214

GNUNET_malloc
#define GNUNET_malloc(size)
Wrapper around malloc.
Definition: gnunet_common.h:1352

GNUNET_free
#define GNUNET_free(ptr)
Wrapper around free.
Definition: gnunet_common.h:1412

GNUNET_FS_meta_data_destroy
void GNUNET_FS_meta_data_destroy(struct GNUNET_FS_MetaData *md)
Free meta data.
Definition: meta_data.c:170

GNUNET_SCHEDULER_add_now
struct GNUNET_SCHEDULER_Task * GNUNET_SCHEDULER_add_now(GNUNET_SCHEDULER_TaskCallback task, void *task_cls)
Schedule a new task to be run as soon as possible.
Definition: scheduler.c:1299

GNUNET_SCHEDULER_add_with_priority
struct GNUNET_SCHEDULER_Task * GNUNET_SCHEDULER_add_with_priority(enum GNUNET_SCHEDULER_Priority prio, GNUNET_SCHEDULER_TaskCallback task, void *task_cls)
Schedule a new task to be run with a specified priority.
Definition: scheduler.c:1226

GNUNET_SCHEDULER_TaskCallback
void(* GNUNET_SCHEDULER_TaskCallback)(void *cls)
Signature of the main function of a task.
Definition: gnunet_scheduler_lib.h:324

GNUNET_SCHEDULER_cancel
void * GNUNET_SCHEDULER_cancel(struct GNUNET_SCHEDULER_Task *task)
Cancel the task with the specified identifier.
Definition: scheduler.c:975

GNUNET_SCHEDULER_add_delayed
struct GNUNET_SCHEDULER_Task * GNUNET_SCHEDULER_add_delayed(struct GNUNET_TIME_Relative delay, GNUNET_SCHEDULER_TaskCallback task, void *task_cls)
Schedule a new task to be run with a specified delay.
Definition: scheduler.c:1272

GNUNET_STRINGS_filename_expand
char * GNUNET_STRINGS_filename_expand(const char *fil)
Complete filename (a la shell) from abbrevition.
Definition: strings.c:494

GNUNET_TIME_relative_min
struct GNUNET_TIME_Relative GNUNET_TIME_relative_min(struct GNUNET_TIME_Relative t1, struct GNUNET_TIME_Relative t2)
Return the minimum of two relative time values.
Definition: time.c:343

GNUNET_TIME_UNIT_FOREVER_REL
#define GNUNET_TIME_UNIT_FOREVER_REL
Constant used to specify "forever".
Definition: gnunet_time_lib.h:190

GNUNET_TIME_absolute_get_duration
struct GNUNET_TIME_Relative GNUNET_TIME_absolute_get_duration(struct GNUNET_TIME_Absolute whence)
Get the duration of an operation as the difference of the current time and the given start time "henc...
Definition: time.c:436

GNUNET_TIME_relative_saturating_multiply
struct GNUNET_TIME_Relative GNUNET_TIME_relative_saturating_multiply(struct GNUNET_TIME_Relative rel, unsigned long long factor)
Saturating multiply relative time by a given factor.
Definition: time.c:531

GNUNET_TIME_absolute_get_remaining
struct GNUNET_TIME_Relative GNUNET_TIME_absolute_get_remaining(struct GNUNET_TIME_Absolute future)
Given a timestamp in the future, how much time remains until then?
Definition: time.c:405

GNUNET_TIME_absolute_get
struct GNUNET_TIME_Absolute GNUNET_TIME_absolute_get(void)
Get the current time.
Definition: time.c:111

GNUNET_TIME_UNIT_MINUTES
#define GNUNET_TIME_UNIT_MINUTES
One minute.
Definition: gnunet_time_lib.h:155

GNUNET_TIME_relative_add
struct GNUNET_TIME_Relative GNUNET_TIME_relative_add(struct GNUNET_TIME_Relative a1, struct GNUNET_TIME_Relative a2)
Add relative times together.
Definition: time.c:585

GNUNET_TIME_absolute_subtract
struct GNUNET_TIME_Absolute GNUNET_TIME_absolute_subtract(struct GNUNET_TIME_Absolute start, struct GNUNET_TIME_Relative duration)
Subtract a given relative duration from the given start time.
Definition: time.c:469

GNUNET_TIME_relative_multiply
struct GNUNET_TIME_Relative GNUNET_TIME_relative_multiply(struct GNUNET_TIME_Relative rel, unsigned long long factor)
Multiply relative time by a given factor.
Definition: time.c:484

GNUNET_TIME_absolute_add
struct GNUNET_TIME_Absolute GNUNET_TIME_absolute_add(struct GNUNET_TIME_Absolute start, struct GNUNET_TIME_Relative duration)
Add a given relative duration to the given start time.
Definition: time.c:450

GNUNET_STRINGS_relative_time_to_string
const char * GNUNET_STRINGS_relative_time_to_string(struct GNUNET_TIME_Relative delta, int do_round)
Give relative time in human-readable fancy format.
Definition: strings.c:569

max
#define max(x, y)
Definition: messenger_api_message.c:336

consensus-simulation.int
int
Definition: consensus-simulation.py:103

platform.h

DIR_SEPARATOR
#define DIR_SEPARATOR
Definition: platform.h:165

DIR_SEPARATOR_STR
#define DIR_SEPARATOR_STR
Definition: platform.h:166

_
#define _(String)
GNU gettext support macro.
Definition: platform.h:178

ContentHashKey
content hash key
Definition: fs.h:55

DownloadRequest
Information about an active download request.
Definition: fs_api.h:1676

DownloadRequest::children
struct DownloadRequest ** children
Array (!) of child-requests, or NULL for the bottom of the tree.
Definition: fs_api.h:1685

DownloadRequest::num_children
unsigned int num_children
Number of entries in children array.
Definition: fs_api.h:1703

DownloadRequest::offset
uint64_t offset
Offset of the corresponding block.
Definition: fs_api.h:1698

DownloadRequest::state
enum BlockRequestState state
State in the FSM.
Definition: fs_api.h:1718

DownloadRequest::depth
unsigned int depth
Depth of the corresponding block in the tree.
Definition: fs_api.h:1708

DownloadRequest::parent
struct DownloadRequest * parent
Parent in the CHK-tree.
Definition: fs_api.h:1680

DownloadRequest::chk
struct ContentHashKey chk
CHK for the request for this block (set during reconstruction to what we have on disk,...
Definition: fs_api.h:1691

FileInfo
Closure for GNUNET_FS_data_reader_file_().
Definition: fs_api.c:413

FileInfo::fd
struct GNUNET_DISK_FileHandle * fd
File descriptor, NULL if it has not yet been opened.
Definition: fs_api.c:422

FileInfo::filename
char * filename
Name of the file to read.
Definition: fs_api.c:417

GNUNET_ARM_Handle::cfg
const struct GNUNET_CONFIGURATION_Handle * cfg
The configuration that we are using.
Definition: arm_api.c:112

GNUNET_BIO_ReadHandle
Handle for buffered reading.
Definition: bio.c:69

GNUNET_BIO_ReadHandle::emsg
char * emsg
Error message, NULL if there were no errors.
Definition: bio.c:83

GNUNET_BIO_ReadSpec
Structure specifying a reading operation on an IO handle.
Definition: gnunet_bio_lib.h:374

GNUNET_BIO_ReadSpec::rh
GNUNET_BIO_ReadHandler rh
Function performing data deserialization.
Definition: gnunet_bio_lib.h:378

GNUNET_BIO_WriteHandle
Handle for buffered writing.
Definition: bio.c:466

GNUNET_BIO_WriteSpec
Structure specifying a writing operation on an IO handle.
Definition: gnunet_bio_lib.h:522

GNUNET_CONFIGURATION_Handle
configuration data
Definition: configuration.c:149

GNUNET_CRYPTO_EcdsaPrivateKey
Private ECC key encoded for transmission.
Definition: gnunet_crypto_lib.h:266

GNUNET_DATASTORE_QueueEntry::priority
unsigned int priority
Priority in the queue.
Definition: datastore_api.c:146

GNUNET_DATASTORE_QueueEntry::h
struct GNUNET_DATASTORE_Handle * h
Handle to the master context.
Definition: datastore_api.c:114

GNUNET_DATASTORE_QueueEntry::next
struct GNUNET_DATASTORE_QueueEntry * next
This is a linked list.
Definition: datastore_api.c:104

GNUNET_DISK_FileHandle
Handle used to access files (and pipes).
Definition: gnunet_disk_lib.h:72

GNUNET_FS_BlockOptions
Settings for publishing a block (which may of course also apply to an entire directory or file).
Definition: gnunet_fs_service.h:1720

GNUNET_FS_BlockOptions::anonymity_level
uint32_t anonymity_level
At which anonymity level should the block be shared? (0: no anonymity, 1: normal GAP,...
Definition: gnunet_fs_service.h:1734

GNUNET_FS_BlockOptions::content_priority
uint32_t content_priority
How important is it for us to store the block? If we run out of space, the highest-priority,...
Definition: gnunet_fs_service.h:1741

GNUNET_FS_BlockOptions::replication_level
uint32_t replication_level
How often should we try to migrate the block to other peers? Only used if "CONTENT_PUSHING" is set to...
Definition: gnunet_fs_service.h:1754

GNUNET_FS_BlockOptions::expiration_time
struct GNUNET_TIME_Absolute expiration_time
At what time should the block expire? Data blocks (DBLOCKS and IBLOCKS) may still be used even if the...
Definition: gnunet_fs_service.h:1728

GNUNET_FS_DownloadContext
Context for controlling a download.
Definition: fs_api.h:1744

GNUNET_FS_DownloadContext::has_finished
int has_finished
Flag set upon transitive completion (includes child downloads).
Definition: fs_api.h:1930

GNUNET_FS_DownloadContext::treedepth
unsigned int treedepth
The depth of the file-tree.
Definition: fs_api.h:1918

GNUNET_FS_DownloadContext::filename
char * filename
Where are we writing the data (name of the file, can be NULL!).
Definition: fs_api.h:1822

GNUNET_FS_DownloadContext::uri
struct GNUNET_FS_Uri * uri
URI that identifies the file that we are downloading.
Definition: fs_api.h:1800

GNUNET_FS_DownloadContext::meta
struct GNUNET_FS_MetaData * meta
Known meta-data for the file (can be NULL).
Definition: fs_api.h:1805

GNUNET_FS_DownloadContext::old_file_size
uint64_t old_file_size
What was the size of the file on disk that we're downloading before we started? Used to detect if the...
Definition: fs_api.h:1898

GNUNET_FS_DownloadContext::completed
uint64_t completed
How many bytes have we already received within the specified range (DBlocks only).
Definition: fs_api.h:1890

GNUNET_FS_DownloadContext::offset
uint64_t offset
What is the first offset that we're interested in?
Definition: fs_api.h:1878

GNUNET_FS_DownloadContext::job_queue
struct GNUNET_FS_QueueEntry * job_queue
Our entry in the job queue.
Definition: fs_api.h:1834

GNUNET_FS_DownloadContext::emsg
char * emsg
Error message, NULL if we're doing OK.
Definition: fs_api.h:1810

GNUNET_FS_DownloadContext::task
struct GNUNET_SCHEDULER_Task * task
ID of a task that is using this struct and that must be cancelled when the download is being stopped ...
Definition: fs_api.h:1872

GNUNET_FS_DownloadContext::search
struct GNUNET_FS_SearchResult * search
Associated search (used when downloading files based on search results), or NULL for none.
Definition: fs_api.h:1770

GNUNET_FS_DownloadContext::child_tail
struct GNUNET_FS_DownloadContext * child_tail
Tail of list of child downloads.
Definition: fs_api.h:1780

GNUNET_FS_DownloadContext::active
struct GNUNET_CONTAINER_MultiHashMap * active
Map of active requests (those waiting for a response).
Definition: fs_api.h:1851

GNUNET_FS_DownloadContext::child_head
struct GNUNET_FS_DownloadContext * child_head
Head of list of child downloads.
Definition: fs_api.h:1775

GNUNET_FS_DownloadContext::length
uint64_t length
How many bytes starting from offset are desired? This is NOT the overall length of the file!
Definition: fs_api.h:1884

GNUNET_FS_DownloadContext::serialization
char * serialization
Random portion of filename we use for syncing state of this download.
Definition: fs_api.h:1816

GNUNET_FS_DownloadContext::anonymity
uint32_t anonymity
Desired level of anonymity.
Definition: fs_api.h:1913

GNUNET_FS_DownloadContext::temp_filename
char * temp_filename
Where are we writing the data temporarily (name of the file, can be NULL!); used if we do not have a ...
Definition: fs_api.h:1829

GNUNET_FS_DownloadContext::next
struct GNUNET_FS_DownloadContext * next
Next download belonging to the same parent.
Definition: fs_api.h:1790

GNUNET_FS_DownloadContext::parent
struct GNUNET_FS_DownloadContext * parent
Parent download (used when downloading files in directories).
Definition: fs_api.h:1764

GNUNET_FS_DownloadContext::top_request
struct DownloadRequest * top_request
Top-level download request.
Definition: fs_api.h:1856

GNUNET_FS_DownloadContext::target
struct GNUNET_PeerIdentity target
Identity of the peer having the content, or all-zeros if we don't know of such a peer.
Definition: fs_api.h:1862

GNUNET_FS_DownloadContext::options
enum GNUNET_FS_DownloadOptions options
Options for the download.
Definition: fs_api.h:1923

GNUNET_FS_DownloadContext::h
struct GNUNET_FS_Handle * h
Global FS context.
Definition: fs_api.h:1748

GNUNET_FS_DownloadContext::start_time
struct GNUNET_TIME_Absolute start_time
Time download was started.
Definition: fs_api.h:1903

GNUNET_FS_DownloadContext::top
struct TopLevelActivity * top
Our top-level activity entry (if we are top-level, otherwise NULL).
Definition: fs_api.h:1753

GNUNET_FS_FileInformation
Information for a file or directory that is about to be published.
Definition: fs_api.h:228

GNUNET_FS_FileInformation::serialization
char * serialization
Under what filename is this struct serialized (for operational persistence).
Definition: fs_api.h:287

GNUNET_FS_FileInformation::keywords
struct GNUNET_FS_Uri * keywords
Keywords to use for KBlocks.
Definition: fs_api.h:258

GNUNET_FS_FileInformation::filename
char * filename
Name of the file or directory (must be an absolute path).
Definition: fs_api.h:302

GNUNET_FS_FileInformation::dir_size
size_t dir_size
Size of the directory itself (in bytes); 0 if the size has not yet been calculated.
Definition: fs_api.h:368

GNUNET_FS_FileInformation::contents_completed
uint64_t contents_completed
How much of the directory have we published (relative to contents_size).
Definition: fs_api.h:379

GNUNET_FS_FileInformation::file
struct GNUNET_FS_FileInformation::@16::@17 file
Data for a file.

GNUNET_FS_FileInformation::emsg
char * emsg
Error message (non-NULL if this operation failed).
Definition: fs_api.h:297

GNUNET_FS_FileInformation::client_info
void * client_info
Pointer kept for the client.
Definition: fs_api.h:248

GNUNET_FS_FileInformation::next
struct GNUNET_FS_FileInformation * next
Files in a directory are kept as a linked list.
Definition: fs_api.h:232

GNUNET_FS_FileInformation::bo
struct GNUNET_FS_BlockOptions bo
Block options for the file.
Definition: fs_api.h:275

GNUNET_FS_FileInformation::is_published
int is_published
Are we done publishing this file?
Definition: fs_api.h:396

GNUNET_FS_FileInformation::meta
struct GNUNET_FS_MetaData * meta
Metadata to use for the file.
Definition: fs_api.h:253

GNUNET_FS_FileInformation::sks_uri
struct GNUNET_FS_Uri * sks_uri
SKS URI for this file or directory.
Definition: fs_api.h:270

GNUNET_FS_FileInformation::dir_data
void * dir_data
Pointer to the data for the directory (or NULL if not available).
Definition: fs_api.h:374

GNUNET_FS_FileInformation::contents_size
uint64_t contents_size
Sum of all of the sizes of all of the files in the directory.
Definition: fs_api.h:384

GNUNET_FS_FileInformation::do_index
int do_index
Should the file be indexed or inserted?
Definition: fs_api.h:339

GNUNET_FS_FileInformation::data
union GNUNET_FS_FileInformation::@16 data
Data describing either the file or the directory.

GNUNET_FS_FileInformation::h
struct GNUNET_FS_Handle * h
Handle to the master context.
Definition: fs_api.h:243

GNUNET_FS_FileInformation::start_time
struct GNUNET_TIME_Absolute start_time
At what time did we start this upload?
Definition: fs_api.h:280

GNUNET_FS_FileInformation::entries
struct GNUNET_FS_FileInformation * entries
Linked list of entries in the directory.
Definition: fs_api.h:362

GNUNET_FS_FileInformation::dir
struct GNUNET_FS_FileInformation * dir
If this is a file in a directory, "dir" refers to the directory; otherwise NULL.
Definition: fs_api.h:238

GNUNET_FS_FileInformation::chk_uri
struct GNUNET_FS_Uri * chk_uri
CHK for this file or directory.
Definition: fs_api.h:264

GNUNET_FS_FileInformation::is_directory
int is_directory
Is this struct for a file or directory?
Definition: fs_api.h:391

GNUNET_FS_Handle
Master context for most FS operations.
Definition: fs_api.h:1070

GNUNET_FS_Handle::flags
enum GNUNET_FS_Flags flags
General flags.
Definition: fs_api.h:1162

GNUNET_FS_Handle::client_name
char * client_name
Name of our client.
Definition: fs_api.h:1079

GNUNET_FS_Handle::upcb_cls
void * upcb_cls
Closure for upcb.
Definition: fs_api.h:1089

GNUNET_FS_Handle::upcb
GNUNET_FS_ProgressCallback upcb
Function to call with updates on our progress.
Definition: fs_api.h:1084

GNUNET_FS_MetaData
Meta data to associate with a file, directory or namespace.
Definition: meta_data.c:96

GNUNET_FS_ProgressInfo
Argument given to the progress callback with information about what is going on.
Definition: gnunet_fs_service.h:886

GNUNET_FS_ProgressInfo::search
struct GNUNET_FS_ProgressInfo::@25::GNUNET_FS_SearchStatusEvent search

GNUNET_FS_ProgressInfo::fi
const struct GNUNET_FS_FileInformation * fi
Information about the file that is being published.
Definition: gnunet_fs_service.h:905

GNUNET_FS_PublishContext
Handle for controlling a publication process.
Definition: fs_api.h:1180

GNUNET_FS_PublishContext::skip_next_fi_callback
int skip_next_fi_callback
Flag set to GNUNET_YES if the next callback from GNUNET_FS_file_information_inspect should be skipped...
Definition: fs_api.h:1299

GNUNET_FS_PublishContext::options
enum GNUNET_FS_PublishOptions options
Options for publishing.
Definition: fs_api.h:1275

GNUNET_FS_PublishContext::dsh
struct GNUNET_DATASTORE_Handle * dsh
Connection to the datastore service.
Definition: fs_api.h:1236

GNUNET_FS_PublishContext::top
struct TopLevelActivity * top
Our top-level activity entry (if we are top-level, otherwise NULL).
Definition: fs_api.h:1189

GNUNET_FS_PublishContext::fi_pos
struct GNUNET_FS_FileInformation * fi_pos
Current position in the file-tree for the upload.
Definition: fs_api.h:1226

GNUNET_FS_PublishContext::nuid
char * nuid
ID for future updates, NULL if we have no namespace or no updates.
Definition: fs_api.h:1209

GNUNET_FS_PublishContext::all_done
int all_done
Set to GNUNET_YES if all processing has completed.
Definition: fs_api.h:1292

GNUNET_FS_PublishContext::fi
struct GNUNET_FS_FileInformation * fi
File-structure that is being shared.
Definition: fs_api.h:1194

GNUNET_FS_PublishContext::nid
char * nid
ID of the content in the namespace, NULL if we have no namespace.
Definition: fs_api.h:1204

GNUNET_FS_PublishContext::h
struct GNUNET_FS_Handle * h
Handle to the global fs context.
Definition: fs_api.h:1184

GNUNET_FS_PublishContext::ns
struct GNUNET_CRYPTO_EcdsaPrivateKey * ns
Namespace that we are publishing in, NULL if we have no namespace.
Definition: fs_api.h:1199

GNUNET_FS_PublishContext::upload_task
struct GNUNET_SCHEDULER_Task * upload_task
ID of the task performing the upload.
Definition: fs_api.h:1259

GNUNET_FS_PublishContext::serialization
char * serialization
Filename used for serializing information about this operation (should be determined using 'mktemp').
Definition: fs_api.h:1215

GNUNET_FS_QueueEntry
Entry in the job queue.
Definition: fs_api.h:421

GNUNET_FS_QueueEntry::stop
GNUNET_SCHEDULER_TaskCallback stop
Function to call when the job needs to stop (or is done / dequeued).
Definition: fs_api.h:440

GNUNET_FS_QueueEntry::cls
void * cls
Closure for start and stop.
Definition: fs_api.h:445

GNUNET_FS_QueueEntry::priority
enum GNUNET_FS_QueuePriority priority
How important is this download?
Definition: fs_api.h:481

GNUNET_FS_QueueEntry::blocks
unsigned int blocks
How many blocks do the active downloads have?
Definition: fs_api.h:476

GNUNET_FS_QueueEntry::next
struct GNUNET_FS_QueueEntry * next
This is a linked list.
Definition: fs_api.h:425

GNUNET_FS_SearchContext
Handle for controlling a search.
Definition: fs_api.h:1511

GNUNET_FS_SearchContext::master_result_map
struct GNUNET_CONTAINER_MultiHashMap * master_result_map
Map that contains a struct GNUNET_FS_SearchResult for each result that was found in the search.
Definition: fs_api.h:1559

GNUNET_FS_SearchContext::emsg
char * emsg
Error message (non-NULL if this operation failed).
Definition: fs_api.h:1551

GNUNET_FS_SearchContext::serialization
char * serialization
Name of the file on disk we use for persistence.
Definition: fs_api.h:1546

GNUNET_FS_SearchContext::client_info
void * client_info
Pointer we keep for the client.
Definition: fs_api.h:1541

GNUNET_FS_SearchContext::psearch_result
struct GNUNET_FS_SearchResult * psearch_result
For update-searches, link to the search result that triggered the update search; otherwise NULL.
Definition: fs_api.h:1531

GNUNET_FS_SearchContext::task
struct GNUNET_SCHEDULER_Task * task
ID of a task that is using this struct and that must be cancelled when the search is being stopped (i...
Definition: fs_api.h:1583

GNUNET_FS_SearchContext::options
enum GNUNET_FS_SearchOptions options
Options for the search.
Definition: fs_api.h:1598

GNUNET_FS_SearchContext::anonymity
uint32_t anonymity
Anonymity level for the search.
Definition: fs_api.h:1588

GNUNET_FS_SearchContext::top
struct TopLevelActivity * top
Our top-level activity entry (if we are top-level, otherwise NULL).
Definition: fs_api.h:1520

GNUNET_FS_SearchContext::uri
struct GNUNET_FS_Uri * uri
List of keywords that we're looking for.
Definition: fs_api.h:1525

GNUNET_FS_SearchContext::h
struct GNUNET_FS_Handle * h
Handle to the global FS context.
Definition: fs_api.h:1515

GNUNET_FS_SearchContext::mq
struct GNUNET_MQ_Handle * mq
Connection to the FS service.
Definition: fs_api.h:1536

GNUNET_FS_SearchContext::start_time
struct GNUNET_TIME_Absolute start_time
When did we start?
Definition: fs_api.h:1570

GNUNET_FS_SearchResult
Information we store for each search result.
Definition: fs_api.h:499

GNUNET_FS_SearchResult::optional_support
uint32_t optional_support
Number of optional keywords under which this result was also found.
Definition: fs_api.h:602

GNUNET_FS_SearchResult::download
struct GNUNET_FS_DownloadContext * download
ID of an associated download based on this search result (or NULL for none).
Definition: fs_api.h:546

GNUNET_FS_SearchResult::update_search
struct GNUNET_FS_SearchContext * update_search
If this search result triggered an update search, this field links to the update search.
Definition: fs_api.h:552

GNUNET_FS_SearchResult::client_info
void * client_info
Client info for this search result.
Definition: fs_api.h:534

GNUNET_FS_SearchResult::availability_trials
uint32_t availability_trials
Number of availability trials that we have performed for this search result.
Definition: fs_api.h:613

GNUNET_FS_SearchResult::uri
struct GNUNET_FS_Uri * uri
URI to which this search result refers to.
Definition: fs_api.h:524

GNUNET_FS_SearchResult::keyword_bitmap
uint8_t * keyword_bitmap
Bitmap that specifies precisely which keywords have been matched already.
Definition: fs_api.h:562

GNUNET_FS_SearchResult::h
struct GNUNET_FS_Handle * h
File-sharing context this result belongs to.
Definition: fs_api.h:503

GNUNET_FS_SearchResult::key
struct GNUNET_HashCode key
Key for the search result based on the URI.
Definition: fs_api.h:567

GNUNET_FS_SearchResult::serialization
char * serialization
Name under which this search result is stored on disk.
Definition: fs_api.h:557

GNUNET_FS_SearchResult::availability_success
uint32_t availability_success
Number of availability tests that have succeeded for this result.
Definition: fs_api.h:607

GNUNET_FS_SearchResult::meta
struct GNUNET_FS_MetaData * meta
Metadata for the search result.
Definition: fs_api.h:529

GNUNET_FS_SearchResult::sc
struct GNUNET_FS_SearchContext * sc
Search context this result belongs to; can be NULL for probes that come from a directory result.
Definition: fs_api.h:519

GNUNET_FS_SearchResult::mandatory_missing
uint32_t mandatory_missing
Number of mandatory keywords for which we have NOT yet found the search result; when this value hits ...
Definition: fs_api.h:596

GNUNET_FS_UnindexContext
Handle for controlling an unindexing operation.
Definition: fs_api.h:1351

GNUNET_FS_UnindexContext::state
enum UnindexState state
Current operatinonal phase.
Definition: fs_api.h:1464

GNUNET_FS_UnindexContext::emsg
char * emsg
Error message, NULL on success.
Definition: fs_api.h:1439

GNUNET_FS_UnindexContext::start_time
struct GNUNET_TIME_Absolute start_time
When did we start?
Definition: fs_api.h:1454

GNUNET_FS_UnindexContext::chk
struct ContentHashKey chk
The content hash key of the last block we processed, will in the end be set to the CHK from the URI.
Definition: fs_api.h:1356

GNUNET_FS_UnindexContext::fhc
struct GNUNET_CRYPTO_FileHashContext * fhc
Context for hashing of the file.
Definition: fs_api.h:1444

GNUNET_FS_UnindexContext::top
struct TopLevelActivity * top
Our top-level activity entry.
Definition: fs_api.h:1366

GNUNET_FS_UnindexContext::filename
char * filename
Name of the file that we are unindexing.
Definition: fs_api.h:1386

GNUNET_FS_UnindexContext::h
struct GNUNET_FS_Handle * h
Global FS context.
Definition: fs_api.h:1361

GNUNET_FS_UnindexContext::ksk_offset
uint32_t ksk_offset
Current offset in KSK removal.
Definition: fs_api.h:1381

GNUNET_FS_UnindexContext::serialization
char * serialization
Short name under which we are serializing the state of this operation.
Definition: fs_api.h:1391

GNUNET_FS_UnindexContext::ksk_uri
struct GNUNET_FS_Uri * ksk_uri
Keywords found (telling us which KBlocks to remove).
Definition: fs_api.h:1376

GNUNET_FS_UnindexContext::file_id
struct GNUNET_HashCode file_id
Hash of the file's contents (once computed).
Definition: fs_api.h:1459

GNUNET_FS_UnindexContext::file_size
uint64_t file_size
Overall size of the file.
Definition: fs_api.h:1449

GNUNET_FS_Uri
A Universal Resource Identifier (URI), opaque.
Definition: fs_api.h:167

GNUNET_FS_Uri::ksk
struct GNUNET_FS_Uri::@13::@14 ksk

GNUNET_FS_Uri::data
union GNUNET_FS_Uri::@13 data

GNUNET_FS_Uri::type
enum GNUNET_FS_UriType type
Type of the URI.
Definition: fs_api.h:171

GNUNET_HashCode
A 512-bit hashcode.
Definition: gnunet_common.h:284

GNUNET_TIME_Absolute
Time for absolute times used by GNUnet, in microseconds.
Definition: gnunet_time_lib.h:54

GNUNET_TIME_Absolute::abs_value_us
uint64_t abs_value_us
The actual value.
Definition: gnunet_time_lib.h:58

GNUNET_TIME_Relative
Time for relative time used by GNUnet, in microseconds.
Definition: gnunet_time_lib.h:77

GNUNET_TIME_Relative::rel_value_us
uint64_t rel_value_us
The actual value.
Definition: gnunet_time_lib.h:81

TopLevelActivity
We track all of the top-level activities of FS so that we can signal 'suspend' on shutdown.
Definition: fs_api.h:1018

TopLevelActivity::ssf_cls
void * ssf_cls
Closure for 'ssf' (some struct GNUNET_FS_XXXHandle*)
Definition: fs_api.h:1037

TopLevelActivity::ssf
SuspendSignalFunction ssf
Function to call for suspend-signalling and clean up.
Definition: fs_api.h:1032